Your search keyword '"GenoMik"' showing total 205 results

1. Von Genen zu Genomen in allem Lebendigen

Author

Haga, Susanne B. and Haga, Susanne B.

Published

2024

2. Fundamental insights into the host genome - rumen microbiota - trait complex of cow-individual nitrogen (N) utilisation and N excretion.

Author

HONERLAGEN, HANNE, REYER, HENRY, and WIMMERS, KLAUS

Subjects

*EXCRETION, *CATTLE breeding, *DAIRY cattle, *ANIMAL health, *NITROGEN

Abstract

Improving the nitrogen (N) utilisation efficiency (NUE) of dairy cows by breeding was considered beneficial for environmental footprints, feeding costs and animal health. Due to the difficult data obtainment of NUE, the cow-individual milk urea (MU) value was suggested as an indicator trait. MU data fulfills the requirements for the breeding value evaluation routine, but studies questioned a stable relationship to NUE. It became evident that a deeper knowledge on the underlying principles of cow-individual N utilisation and -excretion is indispensable before MU can be seriously considered for breeding strategies. In this context four studies were conducted, which focused on the host genome-trait, the host genome-rumen microbiota and the entire host genome-rumen microbiota-trait complex, aiming for a holistic exploration of cow-individual N utilisation and N excretion as a pre-step for future breeding strategies. The results of the studies and their overall interpretation let assume that genomic selection with MU would impact the host genome-rumen microbiota axis (i.e. the holobiont) which subsequently jointly affects MU and NUE- associated phenotypes. [ABSTRACT FROM AUTHOR]

Published

2024

3. Genetische Anzeichen für Mechanismen der Adaptation und Produktion in westafrikanischen Rinderpopulationen.

Author

VANVANHOSSOU, SEYI FRIDAIUS ULRICH and KÖNIG, SVEN

Subjects

*CATTLE breeds, *PHYSIOLOGY, *CATTLE breeding, *MILK proteins, *WHOLE genome sequencing, *GENOMICS, *ANNOTATIONS, *GENOME-wide association studies, *BREEDING, *CATTLE genetics

Abstract

The current project based on the hypothesis that environmental challenges contribute to genetic characteristics of west-African cattle breeds being associated with adaptation, robustness and heat tolerance. Furthermore, social-ecological transformations in the African context may initiate breeding processes towards improved productivity and product quality. For inferring the respective genomic mechanisms, 449 cattle of the local breeds Borgou, Pabli-Kerou, Lagune and Somba were genotyped using the 50K SNP chip. Based on the first two principal components, breeds could be clearly allocated to different clusters, displaying further sub-clusters for the respective historical populations. Obvious was the large genetic distance with high-yielding German cattle breeds such as HF. A particularity of the genomic studies addressing selection signatures was the possible contrasting with the respective historical populations to infer genetic processes of transformation by time. The annotated potential candidate genes contributed to physiological pathways and mechanisms inducing immunity and adaptation. The detected gene RNF220 has well-known effects on calving ease in HF. Genome-wide associations for measurements of morphological traits could be associated with heat tolerance and disease resistance. The quite large heritabilities for continuous body measurements in cm indicate potential for further optimizations of genetic evaluations for conformation traits. Whole-genome sequencing of the west-African breeds contributed to the detection of four novel milk protein variants, illustrating the importance of west-African genetic resources to improve product quality. [ABSTRACT FROM AUTHOR]

Published

2024

4. Landwirtschaftliche Nutztiere der Zukunft: Die Notwendigkeit der Biotechnologie

Author

Seidel, G. E., Jr, Niemann, Heiner, editor, and Wrenzycki, Christine, editor

Published

2023

5. Genetische Faktoren bei Muskelverletzungen im Sport.

Author

Pfab, Florian, Sieland, Johanna, Haser, Christian, Banzer, Winfried, and Kocher, Thomas

Abstract

Copyright of Die Orthopädie is the property of Springer Nature and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

6. Classification of RNA-Sequencing Data Via Poisson and Negative Binomial Linear Discriminant Analyses: A Methodological Study.

Author

GÖKSÜLÜK, Dinçer and KARAAĞAOĞLU, Ahmet Ergün

Subjects

*FISHER discriminant analysis, *RNA sequencing, *ALZHEIMER'S disease, *RENAL cancer, *CERVICAL cancer, *DISCRIMINANT analysis

Abstract

Objective: Microarray and RNA sequencing (RNASeq) technologies are frequently employed in genetic data analysis for detecting disease-associated genes, identifying cancer subtypes, and enabling molecular diagnosis. While numerous methods have been proposed for classification problems using microarray data, there is a paucity of developed methods for classifying RNA-Seq data. This study aims to compare the performance of novel methods developed for RNA-Seq data on 3 distinct real-life datasets. Material and Methods: Cervical cancer, Alzheimer's disease, and kidney cancer RNA-Seq data were utilized in this study. The data were divided into training and test sets in a %70 and %30 ratio, respectively. Various preprocessing steps, such as normalization, power transformation, and variance filtering, were applied to the data. The Poisson Linear Discriminant Analysis (PLDA) and Negative Binomial Linear Discriminant Analysis (NBLDA) models were used for classification purposes, and the predictive performances of these models were compared. Results: Among the three datasets, the Alzheimer's data exhibited the lowest level of dispersion, while the cervical cancer data had the highest overdispersion. The NBLDA model demonstrated superior classification performance compared to the PLDA model. In cases of mild-to-moderate overdispersion, the predictive performance of the PLDA model improved when power transformation was applied, resulting in performance similar to that of the NBLDA model. Conclusion: PLDA and NBLDA models are two novel and promising techniques used in classifying RNA-Seq data. The performance of these models is influenced by the degree of overdispersion. In cases of high overdispersion, it is recommended to utilize the NBLDA model. [ABSTRACT FROM AUTHOR]

Published

2023

7. Kişiselleştirilmiş Tıp Envanterinin Geliştirilmesi: Geçerlik ve Güvenirlik Çalışması Development of Personalized Medicine Inventory: Validity and Reliability Study.

Author

Bulut, Arzu and Şengül, Halil

Abstract

Copyright of Social Sciences Studies is the property of Social Sciences Studies and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

8. Classification of colorectal cancer based on gene sequencing data with XGBoost model: An application of public health informatics

Author

Cemil Çolak, Zeynep Küçükakçalı, and Sami Akbulut

Subjects

kolorektal kanser, genomik, makine öğrenimi, xgboost modeli, colorectal cancer, genomics, machine learning, xgboost model, Medicine (General), R5-920

Abstract

Purpose: This study aims to classify open-access colorectal cancer gene data and identify essential genes with the XGBoost method, a machine learning method. Materials and Methods: The open-access colorectal cancer gene dataset was used in the study. The dataset included gene sequencing results of 10 mucosae from healthy controls and the colonic mucosa of 12 patients with colorectal cancer. XGboost, one of the machine learning methods, was used to classify the disease. Accuracy, balanced accuracy, sensitivity, selectivity, positive predictive value, and negative predictive value performance metrics were evaluated for model performance. Results: According to the variable selection method, 17 genes were selected, and modeling was performed with these input variables. Accuracy, balanced accuracy, sensitivity, specificity, positive predictive value, negative predictive value, and F1 score obtained from modeling results were 95.5%, 95.8%, 91.7%, 1%, 1%, and 90.9%, and 95.7%, respectively. According to the variable impotance acquired from the XGboost technique results, the CYR61, NR4A, FOSB, and NR4A2 genes can be employed as biomarkers for colorectal cancer. Conclusion: As a consequence of this research, genes that may be linked to colorectal cancer and genetic biomarkers for the illness were identified. In the future, the detected genes' reliability can be verified, therapeutic procedures can be established based on these genes, and their usefulness in clinical practice may be documented.

Published

2022

9. Çevresel Kirleticiler ve Plasental Transporterlar: PCB ile SLC ve ABCB1 Örneği.

Author

DİKMEN, Begüm YURDAKÖK, UYAR, Recep, KUZUKIRAN, Özgür, ÜNAL, Mehmet Altay, ÇELİK, Hasan Tolga, BOZTEPE, Ümmü Gülsüm, ALKAN, Kübra KARAKAŞ, ÖZYÜNCÜ, Özgür, BİRER, Yağmur TURGUT, SEVGİLİ, Hilal ÖZDAĞ, KANCA, Halit, AKTAN, Çağdaş, and FİLAZİ, Ayhan

Subjects

POLYCHLORINATED biphenyls analysis, COMPUTER simulation, IN vitro studies, POLLUTANTS, SEQUENCE analysis, ANIMAL experimentation, GAS chromatography, BIOINFORMATICS, GENE expression, PLACENTA, MASS spectrometry, GENOMES, MESSENGER RNA, DESCRIPTIVE statistics, CELL lines, POLYMERASE chain reaction, POLYCHLORINATED biphenyls, CARRIER proteins, LIGANDS (Biochemistry)

Abstract

Copyright of Balikesir Health Sciences Journal / Balıkesir Sağlık Bilimleri Dergisi is the property of Balikesir Health Sciences Journal (BAUN Health Sci J) and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022

10. Moderne molekulare und bildgebende Diagnostik bei neuroendokrinen Neoplasien des Pankreas.

Author

Chiapponi, Costanza and Bruns, Christiane J

Abstract

Copyright of Best Practice Onkologie is the property of Springer Nature and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022

11. Classification of colorectal cancer based on gene sequencing data with XGBoost model: An application of public health informatics.

Author

Akbulut, Sami, Küçükakçalı, Zeynep, and Çolak, Cemil

Subjects

*CANCER genes, *COLORECTAL cancer, *MEDICAL informatics, *TUMOR classification, *TUMOR markers, *TUMOR budding

Abstract

Purpose: This study aims to classify open-access colorectal cancer gene data and identify essential genes with the XGBoost method, a machine learning method. Materials and Methods: The open-access colorectal cancer gene dataset was used in the study. The dataset included gene sequencing results of 10 mucosae from healthy controls and the colonic mucosa of 12 patients with colorectal cancer. XGboost, one of the machine learning methods, was used to classify the disease. Accuracy, balanced accuracy, sensitivity, selectivity, positive predictive value, and negative predictive value performance metrics were evaluated for model performance. Results: According to the variable selection method, 17 genes were selected, and modeling was performed with these input variables. Accuracy, balanced accuracy, sensitivity, specificity, positive predictive value, negative predictive value, and F1 score obtained from modeling results were 95.5%, 95.8%, 91.7%, 1%, 1%, and 90.9%, and 95.7%, respectively. According to the variable impotance acquired from the XGboost technique results, the CYR61, NR4A, FOSB, and NR4A2 genes can be employed as biomarkers for colorectal cancer. Conclusion: As a consequence of this research, genes that may be linked to colorectal cancer and genetic biomarkers for the illness were identified. In the future, the detected genes' reliability can be verified, therapeutic procedures can be established based on these genes, and their usefulness in clinical practice may be documented. [ABSTRACT FROM AUTHOR]

Published

2022

12. Genetische Themen für die Facharztweiterbildung Allgemeinmedizin? Eine Querschnittstudie unter Hausärzt:innen.

Author

Reusch, Freya Sophia, Götz, Katja, and Steinhäuser, Jost

Subjects

*LIKERT scale, *MEDICAL education, *PATIENTS' families, *FAMILY medicine, *GENETIC disorders, *TRAINING of medical residents

Abstract

Background Around one in 20 patients in family practice brings at least one genetically influenced health condition into consultation. To ensure comprehensive health care, knowledge of genetic aspects of diseases should be imparted in post-graduate training programs in family medicine. The topic of genetics is already anchored in some international curricula in the field of family medicine. The aim of the study was to determine which topics and competencies regarding genetics are relevant during post-graduate training from the point of view of family physicians in Germany. Methods A cross-sectional postal survey was carried out in the period between 11/2018 and 02/2019 by using a questionnaire that was sent to 2,012 family physicians in Germany. Beside sociodemographic aspects, the confidence to carry out genetic tasks as well as interpreting pedigrees were questioned with a Likert scale from 1 (strongly agree) to 6 (strongly disagree). In addition, relevance of various post-graduate training content on genetic topics was requested using a Likert scale from 1 (very relevant) to 6 (not relevant at all). The analysis of the data was carried out using SPSS 27.0 (IBM). Results A total of 292 (15 %) family physicians took part in the survey. 52 % of the participants were female and the average age was 53. In the mean of 3.2 (SD 1.5) family physicians felt confident in interpreting pedigrees. 25 of the participants (9 %) created a pedigree in the last twelve months. Cancer (M 1.6; SD 0.7) and multifactorial diseases with a genetic component (M 1.7; SD 0.9) were graded most relevant to post-graduate training. Conclusions There is a heterogeneous awareness of genetically (co-)determined diseases in family practice. Based on existing uncertainties in dealing with associated consultation issues as well as genetic topics identified as relevant for post-graduate medical education, knowledge and skills competencies on specific genetic topics should be taken up. [ABSTRACT FROM AUTHOR]

Published

2022

13. Anwendungen von Einzelzellmethoden in der mikrobiellen Naturstoffforschung.

Author

Cahn, Jackson K. B. and Piel, Jörn

Abstract

Die diversen Mikroorganismen, die Naturstoffe produzieren, sind eine wichtige Quelle für neuartige Therapeutika, Arzneimittelkandidaten und wissenschaftliche Hilfsmittel. Der allergrößte Teil der mikrobiellen Vielfalt konnte jedoch nicht axenisch kultiviert werden und gehört komplexen Lebensgemeinschaften an. Während meta′omische Methoden wie Metagenomik, ‐transkriptomik und ‐proteomik kollektive molekulare Merkmale der "mikrobiellen dunklen Materie" identifizieren, kann die Untersuchung einzelner Mikrobiom‐Bakterien eine Herausforderung sein. Um diese Limitierungen zu überwinden, wurden in den letzten eineinhalb Jahrzehnten mehrere Techniken für das Studium einzelner Bakterienzellen entwickelt. Während verschiedene dieser Methoden in der mikrobiellen Ökologie Verbreitung finden, werden sie bisher weniger häufig in der Naturstoffforschung eingesetzt. In diesem Aufsatz stellen wir die verfügbaren und neu aufkommenden Techniken für die gezielte Einzelzellanalyse vor, mit einem besonderen Schwerpunkt auf Anwendungen in der Entdeckung und Untersuchung von Naturstoffen. [ABSTRACT FROM AUTHOR]

Published

2021

14. Kanserden Korunmada Beslenme Tarzının Önemi: Moleküler Düzeyde Bir Bakış.

Author

ÇELEBİER, Mustafa, ERCAN, Ayşe, and KÖSE, Yavuz Bülent

Abstract

Copyright of Journal of Traditional Medical Complementary Therapies is the property of Turkiye Klinikleri and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2021

15. NGS zur Selektion innovativer Therapien – Was bringt das?

Author

Schulmeyer, Carla E., Bader, Simon, Hübner, Hanna, Rübner, Matthias, and Fasching, Peter A.

Abstract

Copyright of Der Gynäkologe is the property of Springer Nature and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2021

16. Molekulare Subtypen des Urothelkarzinoms der Harnblase – Hintergründe und klinische Relevanz.

Author

Erben, Philipp, Becker, Christoph, Tsaur, Igor, Stope, Matthias B., and Todenhöfer, Tilman

Abstract

Copyright of Der Urologe A is the property of Springer Nature and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2021

17. A Review of the History of Radioactive Iodine Theranostics: The Origin of Nuclear Ontology.

Author

Ehrhardt Jr., John Dennis and Güleç, Seza

Subjects

*IODINE isotopes, *COMPANION diagnostics, *NUCLEAR medicine, *NUCLEAR physics, *THYROID cancer, *THYROID gland tumors

Abstract

Studies on the first years of radioactive iodine (RAI) use in thyroid diseases have focused on hyperthyroidism. Saul Hertz's success with RAI in thyrotoxicosis fueled a seamless transition to Samuel Seidlin's investigations with RAI in thyroid cancer. These landmark events embody nuclear ontology, a philosophical foundation for the creation and existence of radio-therapeutic principles that continue to influence clinical practices today. Laying this ontological foundation, Dr. Saul Hertz who is the founding director of Massachusetts General Hospital Thyroid Clinic, affiliated with Harvard University created a framework for RAI theranostics with preclinical experiments and clinical cases from 1937 to 1942. The first thyroid cancer treatment with RAI was applied in 1942 by Samuel Seidlin. The sensational effect of the first application was interestingly powerful enough to overshadow scientific data. Seidlin and colleagues assembled a sixteen-patient series showcasing a unique entity: functional thyroid metastases that respond to RAI. Other investigations at the time demonstrated that RAI had little efficacy as a therapeutic agent, mainly because most thyroid tumors do not form colloid, and therefore cannot concentrate RAI. These findings were soon overshadowed by a mainstream article in the October 1949 issue of Life that portrayed RAI as a lifesaving therapy for thyroid cancer. The paradigm was set, and later writings by William H. Beierwaltes and other prominent nuclear medicine physicians established the primary goals and principles of RAI therapy. The developments in theoretical physics and nuclear instrumentation and the scientists who made these developments in the early years contributed greatly to the development of the concept. In the field of nuclear medicine, William H. Beierwaltes has gone down in our history as a clinical researcher with his most important contributions. The classical paradigm that started with him has carried us to today's molecular theranoistic viewpoint. This paper examines controversial topics in the advent of thyroid theranostics, and applies historical significance to current discussions on the role of RAI in thyroid cancer management. Another paradigm shift is on the horizon as thyroidology enters the age of genomics. The molecular theranostic profiles will soon be incorporated into a dynamic clinical decision-making and management algorithm for thyroid surgery and RAI therapy. From now on, nuclear oncology will gain a new ontological identity with molecular pathology and new theranostic expansions. [ABSTRACT FROM AUTHOR]

Published

2020

18. Detection of BVDV 1q in China: Genetic Characterization and Experimental Infection for the Investigation of It's Pathogenicity.

Author

Yanhua HE, Xusheng MA, Xin HUANG, Jinliang SHENG, Fagang ZHONG, Xinxia ZHAO, Yunfeng ZHANG, and Chuangfu CHEN

Subjects

*BOVINE viral diarrhea virus, *VIRAL antigens, *BOVINE viral diarrhea, *CATTLE diseases, *SYMPTOMS, *MICROBIAL virulence, *VACCINE effectiveness

Abstract

Bovine viral diarrhea virus (BVDV) is a pathogen that affects ruminants worldwide and is one of the most economically important diseases of cattle. Although BVDV infections have been increasingly reported in China, the pathogenesis and genetic characteristics of these BVDV isolates have not been thoroughly investigated. Here, we report the identification and characterization of a novel BVDV isolate, designated LC, which was isolated from the feces of a cattle with diarrhea. The complete genome of isolate LC was 12.271 nucleotides and contained a 5'-UTR of 389 nucleotides, a 3'-UTR of 189 nucleotides, and a large ORF encoding a polyprotein consisting of 3898 amino acids. Genomic comparisons and phylogenetic analyses of the complete genomic sequence clearly showed that the isolate was a BVDV-1q subtype. Experimental infection of calves with isolate LC resulted in the development of clinical signs including elevated rectal temperatures, nasal discharge and decreased leucopenia. Viral antigen was detected in infected animal tissues using immunohistochemistry. This is the first report of the genomic sequence of a BVDV-1q virus isolated from cattle. The virus strain was moderately pathogenic in calves and could potentially be used as a BVDV challenge virus to evaluate the efficacy of BVDV vaccines. [ABSTRACT FROM AUTHOR]

Published

2020

19. Das Molekulare Tumorboard: Ethische Herausforderungen und Empfehlungen für die Praxis.

Author

Schickhardt, Christoph, Horak, Peter, Fröhling, Stefan, and Winkler, Eva C.

Abstract

Copyright of Der Onkologe is the property of Springer Nature and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2020

20. Cell states and transcriptional programs of the healthy human heart

Author

Landthaler, Markus, Hübner, Norbert, Teichmann, Sarah, Litviňuková, Monika, Landthaler, Markus, Hübner, Norbert, Teichmann, Sarah, and Litviňuková, Monika

Abstract

Das Herz ist das zentrale Kreislauforgan in unserem Körper und jede Abweichung seiner Funktion wirkt sich negativ auf die Homöostase des gesamten Körpers aus. Die Herzfunktion beruht auf der Synergie der Zellen, die das Organ bilden. Die detaillierte zelluläre Zusammensetzung sowie die Funktionalität der einzelnen Zellen müssen noch ermittelt werden, und diese Arbeit ist eine wichtige Ergänzung dieser Bemühungen. Dank der jüngsten Entwicklungen in den Einzelzelltechnologien sind wir nun in der Lage, Transkriptome einzelner Zellen aus komplexem Gewebe in beispiellosem Umfang zu charakterisieren. Im ersten Schritt eines solchen Experiments müssen die Zellen und Zellkerne aus dem Gewebe befreit und vereinzelt werden. Herzgewebe wirft in dieser Hinsicht einzigartige Herausforderungen auf, darunter die Knappheit des gesunden menschlichen Herzgewebes für die Forschung, das Vorhandensein von Kardiomyozyten, die aufgrund ihrer Größe nicht durch Microfluid-basierte Standardinstrumente passen und deren Multinukleation, sowie mögliche Voreingenommenheit verschiedener Methoden zur Gewebedissoziation. Hier präsentiere ich den umfassenden Zellatlas des gesunden erwachsenen menschlichen Herzens. Ich beginne mit der Methodenentwicklung zur Isolierung von einzelnen Zellen und Zellkernen aus Mausherzen. Um den Zellatlas des menschlichen Herzens zu erstellen, analysiere ich einen Datensatz von fast einer halben Million Einzelzellen und Zellkerne aus sechs Herzregionen von vierzehn gesunden Menschen. In diesem Atlas definieren wir 11 Hauptzelltypen und 62 Zellzustände des menschlichen Herzens. Ein tieferer Fokus wird auf das Herzgefäßsystem gelegt und die Zellen der arterio-venösen Achse sowie deren Wechselwirkungen und potenzielle Funktionalität werden definiert. Insgesamt präsentiert diese Dissertation einen komplex Datensatz aus menschlichem Herzgewebe und liefert neue Einblicke in die Biologie des gesunden Herzens mit Implikationen für kardiovaskuläre Erkrankungen., The heart is the central circulatory organ in our bodies and any discrepancies of its function relative to healthy homeostasis negatively impact the whole body. Cardiac function relies on the synergy of all the cells that constitute the organ. The detailed cellular composition as well as the heterogeneity and functionality of the individual cells is yet to be established and this work is a major advance in this effort. Thanks to the recent developments in single cell genomics technologies, we are now able to profile transcriptomes from individual cells of complex tissues at unprecedented scale. In the first step of such an experiment, the single cells and nuclei need to be liberated from the tissue. Heart tissue presents a unique set of challenges in this regard, including the scarcity of healthy human cardiac tissue for research, large cardiomyocytes that do not fit into the standard droplet-based instruments, multinucleation of cardiomyocytes that might skew the proportions of the recovered nuclei as well as potential bias of tissue dissociation methods. Here I present a cell atlas of the free walls, apex and septum of the healthy adult human heart. I start with methods development for the isolation of single cells and single nuclei from mouse heart. Next, I move to the building of the atlas of the human cells and nuclei, where I describe the dataset of close to half a million single cells and nuclei sampled from 14 organ donors, defining 11 major cell types and 62 cell states of the heart. A deeper focus on the cardiac vasculature defined the cells of the arterio-venous axis as well as their interactions and potential functionality. Overall, this thesis presents a joined dataset of single cells and single nuclei from human cardiac tissues and provides new insights into cardiac biology in heath with implications for cardiovascular disease.

Published

2023

21. Global Morality and Life Science Practices in Asia : Assemblages of Life

Author

M. Sleeboom-Faulkner and M. Sleeboom-Faulkner

Subjects

Bioethics--Asia, Bioethics, Gesundheitspolitik, Reproduktionsmedizin, Familienpolitik, Fertilita¨t, Bioethik, Sichelzellenana¨mie, Genomik, Eugenik

Abstract

Empirical studies of life science research and biotechnologies in Asia show how assemblages of life articulate bioethics governance with global moralities and reveal why the global harmonization of bioethical standards is contrived.

Published

2014

22. Cell states and transcriptional programs of the healthy human heart

Author

Litviňuková, Monika, Landthaler, Markus, Hübner, Norbert, and Teichmann, Sarah

Subjects

Herzbiologie, Single-cell RNA sequencing, Heart Biology, ddc:570, Single-cell RNA Sequenzierung, Kardiovaskuläre Medizin, 570 Biologie, Genomics, Cardiovascular Medicine, Genomik

Abstract

Das Herz ist das zentrale Kreislauforgan in unserem Körper und jede Abweichung seiner Funktion wirkt sich negativ auf die Homöostase des gesamten Körpers aus. Die Herzfunktion beruht auf der Synergie der Zellen, die das Organ bilden. Die detaillierte zelluläre Zusammensetzung sowie die Funktionalität der einzelnen Zellen müssen noch ermittelt werden, und diese Arbeit ist eine wichtige Ergänzung dieser Bemühungen. Dank der jüngsten Entwicklungen in den Einzelzelltechnologien sind wir nun in der Lage, Transkriptome einzelner Zellen aus komplexem Gewebe in beispiellosem Umfang zu charakterisieren. Im ersten Schritt eines solchen Experiments müssen die Zellen und Zellkerne aus dem Gewebe befreit und vereinzelt werden. Herzgewebe wirft in dieser Hinsicht einzigartige Herausforderungen auf, darunter die Knappheit des gesunden menschlichen Herzgewebes für die Forschung, das Vorhandensein von Kardiomyozyten, die aufgrund ihrer Größe nicht durch Microfluid-basierte Standardinstrumente passen und deren Multinukleation, sowie mögliche Voreingenommenheit verschiedener Methoden zur Gewebedissoziation. Hier präsentiere ich den umfassenden Zellatlas des gesunden erwachsenen menschlichen Herzens. Ich beginne mit der Methodenentwicklung zur Isolierung von einzelnen Zellen und Zellkernen aus Mausherzen. Um den Zellatlas des menschlichen Herzens zu erstellen, analysiere ich einen Datensatz von fast einer halben Million Einzelzellen und Zellkerne aus sechs Herzregionen von vierzehn gesunden Menschen. In diesem Atlas definieren wir 11 Hauptzelltypen und 62 Zellzustände des menschlichen Herzens. Ein tieferer Fokus wird auf das Herzgefäßsystem gelegt und die Zellen der arterio-venösen Achse sowie deren Wechselwirkungen und potenzielle Funktionalität werden definiert. Insgesamt präsentiert diese Dissertation einen komplex Datensatz aus menschlichem Herzgewebe und liefert neue Einblicke in die Biologie des gesunden Herzens mit Implikationen für kardiovaskuläre Erkrankungen. The heart is the central circulatory organ in our bodies and any discrepancies of its function relative to healthy homeostasis negatively impact the whole body. Cardiac function relies on the synergy of all the cells that constitute the organ. The detailed cellular composition as well as the heterogeneity and functionality of the individual cells is yet to be established and this work is a major advance in this effort. Thanks to the recent developments in single cell genomics technologies, we are now able to profile transcriptomes from individual cells of complex tissues at unprecedented scale. In the first step of such an experiment, the single cells and nuclei need to be liberated from the tissue. Heart tissue presents a unique set of challenges in this regard, including the scarcity of healthy human cardiac tissue for research, large cardiomyocytes that do not fit into the standard droplet-based instruments, multinucleation of cardiomyocytes that might skew the proportions of the recovered nuclei as well as potential bias of tissue dissociation methods. Here I present a cell atlas of the free walls, apex and septum of the healthy adult human heart. I start with methods development for the isolation of single cells and single nuclei from mouse heart. Next, I move to the building of the atlas of the human cells and nuclei, where I describe the dataset of close to half a million single cells and nuclei sampled from 14 organ donors, defining 11 major cell types and 62 cell states of the heart. A deeper focus on the cardiac vasculature defined the cells of the arterio-venous axis as well as their interactions and potential functionality. Overall, this thesis presents a joined dataset of single cells and single nuclei from human cardiac tissues and provides new insights into cardiac biology in heath with implications for cardiovascular disease.

Published

2023

23. Using machine learning to predict pathogenicity of genomic variants throughout the human genome

Author

Rentzsch, Philipp, Ohler, Uwe, Seelow, Dominik, and Krawitz, Peter

Subjects

Bioinformatics, CADD, Machine learning, ddc:000, 000 Informatik, Informationswissenschaft, allgemeine Werke, Bioinformatik, Machinelles Lernen, Genomics, Genomik

Abstract

Geschätzt mehr als 6.000 Erkrankungen werden durch Veränderungen im Genom verursacht. Ursachen gibt es viele: Eine genomische Variante kann die Translation eines Proteins stoppen, die Genregulation stören oder das Spleißen der mRNA in eine andere Isoform begünstigen. All diese Prozesse müssen überprüft werden, um die zum beschriebenen Phänotyp passende Variante zu ermitteln. Eine Automatisierung dieses Prozesses sind Varianteneffektmodelle. Mittels maschinellem Lernen und Annotationen aus verschiedenen Quellen bewerten diese Modelle genomische Varianten hinsichtlich ihrer Pathogenität. Die Entwicklung eines Varianteneffektmodells erfordert eine Reihe von Schritten: Annotation der Trainingsdaten, Auswahl von Features, Training verschiedener Modelle und Selektion eines Modells. Hier präsentiere ich ein allgemeines Workflow dieses Prozesses. Dieses ermöglicht es den Prozess zu konfigurieren, Modellmerkmale zu bearbeiten, und verschiedene Annotationen zu testen. Der Workflow umfasst außerdem die Optimierung von Hyperparametern, Validierung und letztlich die Anwendung des Modells durch genomweites Berechnen von Varianten-Scores. Der Workflow wird in der Entwicklung von Combined Annotation Dependent Depletion (CADD), einem Varianteneffektmodell zur genomweiten Bewertung von SNVs und InDels, verwendet. Durch Etablierung des ersten Varianteneffektmodells für das humane Referenzgenome GRCh38 demonstriere ich die gewonnenen Möglichkeiten Annotationen aufzugreifen und neue Modelle zu trainieren. Außerdem zeige ich, wie Deep-Learning-Scores als Feature in einem CADD-Modell die Vorhersage von RNA-Spleißing verbessern. Außerdem werden Varianteneffektmodelle aufgrund eines neuen, auf Allelhäufigkeit basierten, Trainingsdatensatz entwickelt. Diese Ergebnisse zeigen, dass der entwickelte Workflow eine skalierbare und flexible Möglichkeit ist, um Varianteneffektmodelle zu entwickeln. Alle entstandenen Scores sind unter cadd.gs.washington.edu und cadd.bihealth.org frei verfügbar. More than 6,000 diseases are estimated to be caused by genomic variants. This can happen in many possible ways: a variant may stop the translation of a protein, interfere with gene regulation, or alter splicing of the transcribed mRNA into an unwanted isoform. It is necessary to investigate all of these processes in order to evaluate which variant may be causal for the deleterious phenotype. A great help in this regard are variant effect scores. Implemented as machine learning classifiers, they integrate annotations from different resources to rank genomic variants in terms of pathogenicity. Developing a variant effect score requires multiple steps: annotation of the training data, feature selection, model training, benchmarking, and finally deployment for the model's application. Here, I present a generalized workflow of this process. It makes it simple to configure how information is converted into model features, enabling the rapid exploration of different annotations. The workflow further implements hyperparameter optimization, model validation and ultimately deployment of a selected model via genome-wide scoring of genomic variants. The workflow is applied to train Combined Annotation Dependent Depletion (CADD), a variant effect model that is scoring SNVs and InDels genome-wide. I show that the workflow can be quickly adapted to novel annotations by porting CADD to the genome reference GRCh38. Further, I demonstrate the integration of deep-neural network scores as features into a new CADD model, improving the annotation of RNA splicing events. Finally, I apply the workflow to train multiple variant effect models from training data that is based on variants selected by allele frequency. In conclusion, the developed workflow presents a flexible and scalable method to train variant effect scores. All software and developed scores are freely available from cadd.gs.washington.edu and cadd.bihealth.org.

Published

2023

24. Die künstliche Intelligenz in der Einzelzellgenomik: Zwei innovative Technologien für die biomedizinische Forschung in höchster Auflösung.

Author

Dickten, H., Kratsch, C., and Reiz, B.

Abstract

Copyright of Gefaesschirurgie is the property of Springer Nature and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2019

25. Long-read sequencing in human genetics.

Author

Kraft, Florian and Kurth, Ingo

Abstract

Copyright of Medizinische Genetik is the property of De Gruyter and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2019

26. Analysis of the somatic and germline genomes of the ciliate Blepharisma stoltei

Author

Singh, Minakshi and Swart, Estienne (Dr.)

Subjects

Ciliates, Genom , RNS , Transposase , Transposon, Wimperntierchen, PiggyBac, Genomics, Genomik

Abstract

Ciliaten sind prototypische, üblicherweise einzellige Eukaryoten mit getrennten Keimbahn- und somatischen Zellkernen. Das somatische Genom entsteht aus dem Keimbahngenom durch einen Prozess der Transposase-vermittelten DNA-Eliminierung und Genom-Neuordnung während der sexuellen Fortpflanzung. Aktuelle Modelle für die Reorganisation des Genoms bei Wimpertierchen gehen davon aus, dass kleine RNAs während der sexuellen Fortpflanzung in den sich entwickelnden somatischen Kern transportiert werden und Transposasen dabei helfen, keimlinienspezifische Sequenzen zu identifizieren und auszuschneiden. Diese Sequenzen, die so genannten intern eliminierten Sequenzen (IES), und ihre Exzisasen werden von einer Maschinerie begleitet, die ihre Entfernung durchführt. Dazu gehören Dicer-ähnliche und Piwi/Argonaute-Proteine, die kleine RNAs erzeugen und transportieren, sowie Proteine, die das Chromatin verändern und die DNA für die Exzision zugänglich machen. Blepharisma gehört zu einer früh divergiereden Klasse von Ciliaten, die als Heterotrichea bekannt sind. Obwohl die Reorganisation des Genoms bei später divergierenden Ciliaten wie den oligohymenophoren Ciliaten Tetrahymena und Paramecium und den spirotrichen Oxytricha untersucht wurde, gibt es deutliche Unterschiede in der Art und Weise, wie sie dies tun. Die Untersuchung dieses Prozesses in einem früh divergiereden Ciliaten wie Blepharisma ist ein wichtiger Beitrag zum Verständnis, wie konserviert die verschiedenen Elemente der Genom- Reorganisationsmaschinerie unter Ciliaten sind. Diese Arbeit bietet den ersten Blick aus genomischer Sicht auf die verschiedenen Teilnehmer und mutmaßlichen Mechanismen der Genomreorganisation in Blepharisma. Mittels Long-Read-Sequenzierung und Annotationsmethoden, die auf die atypischen Genomeigenschaften von Blepharisma zugeschnitten sind, wurden annotierte Referenzgenome für die somatischen und Keimbahnkerne von Blepharisma stoltei (Stamm ATCC 30299) erstellt. Das somatische Genom von B. stoltei ist kompakt (41 Mb), gen-dicht (25710 Gene) und enthält kurze, 15-16 Nukleotide umfassende spliceosomale Introns. Wir haben Schlüsselkomponenten identifiziert, die an der Reorganisation des Genoms im somatischen Genom von Blepharisma beteiligt sind, und sie mit denen der Modell-Ciliaten Paramecium, Tetrahymena und Oxytricha verglichen. Es wurden vier Transposase-Familien gefunden, die in den somatischen und Keimbahn-Genomen kodiert sind, nämlich die PiggyBac-,Tc1/Mariner-, Mutator- und Merlin-Familien. Es ist bekannt, dass PiggyBac-Transposasen die wichtigsten Transposasen sind, die in den Modell-Ciliaten Paramecium und Tetrahymena an der Reorganisation des Genoms beteiligt sind, während sie in Oxytricha, wo vermutlich eine Transposase aus einer anderen Familie verwendet wird, gänzlich fehlen. In Paramecium koordinieren sechs somatisch kodierte PiggyBacs, die nicht zur Katalyse fähig sind, sowie ein katalytisch vollständiges Homolog, namens PiggyMac, die DNA-Exzision. Dies ähnelt der Situation in Blepharisma, wo es dreizehn Homologe der PiggyBac-Transposase gibt, von denen nur eine eine vollständige katalytische Triade besitzt und daher wahrscheinlich die primäre Exzisase ist. Die keimbahnbegrenzten genomischen Regionen von Blepharisma wurden ebenfalls charakterisiert. Die IES von Blepharisma haben zwei wesentliche Merkmale mit den IES von Paramecium gemeinsam, nämlich eine periodische Längenverteilung für kurze IES und überwiegend durch TA-Dinukleotide abgegrenzte IES-Grenzen. Wir haben auch eine Klasse von kleinen RNAs („small RNAs“ ) mit 24 Nukleotiden identifiziert, die mit fortschreitender Entwicklung in Blepharisma zunehmend den IESs zugeordnet werden. Diese Tendenzen ähneln denen, die in Paramecium und Tetrahymena beobachtet wurden, weshalb wir vorschlagen, dass es sich auch hier um so genannte "Scan"-RNAs (scnRNAs) handelt, die die IES-Exzision steuern. Die phylogenetische Analyse der PiggyBac-Homologe von Blepharisma hat gezeigt, dass sie einen gemeinsamen Ursprung mit den PiggyBac-Homologen von Paramecium und Tetrahymena haben, wobei letztere evolutionär stärker divergieren als Blepharisma und auf jüngeren Zweigen des phylogenetischen Stammbaums der Ciliaten zu finden sind. Mehrere Indizien aus diesen Studien deuten daher darauf hin, dass eine PiggyBac-Transposase höchstwahrscheinlich die wichtigste IES-Exzisase in Blepharisma ist und dass der letzte gemeinsame Vorfahre der Ciliaten ebenfalls diesen Transposasetyp besaß. Ciliates are prototypical, conventionally unicellular eukaryotes with separate germline and somatic nuclei. The somatic genome arises from the germline genome through a process of transposase-mediated DNA elimination and genome rearrangement during sexual reproduction. Current models for genome reorganization in ciliates posit that small RNAs are transported to the developing somatic nucleus during sexual reproduction, aiding transposases in identifying and excising germline-specific sequences. Accompanying these sequences, known as Internally Eliminated Sequences (IESs), and their excisases is the machinery to carry out their removal. This includes Dicer-like and Piwi/Argonaute proteins, which generate and transport small RNAs, as well as proteins that alter chromatin, and make DNA accessible for excision. The ciliate Blepharisma belongs to an early diverging class of ciliates known as the Heterotrichea. Though genome reorganization has been studied in later diverging ciliates such the oligohymenophorean ciliates Tetrahymena and Paramecium and the spirotrich Oxytricha there are pronounced differences in how they do so. Studying this process in an early diverging ciliate like Blepharisma is an important contribution to the understanding of how conserved the different elements of the genome reorganization machinery among ciliates are. This thesis provides the first look, from a genomic perspective, at the various participants and putative mechanisms of genome reorganization in Blepharisma. Annotated reference genomes for the somatic and germline nuclei of Blepharisma stoltei (strain ATCC 30299) were generated using long-read sequencing and annotation methods tailored to the atypical genome properties of Blepharisma. The B. stoltei somatic genome is compact (41 Mb), gene-dense (25710 genes) and contains short, 15-16 nucleotide spliceosomal introns. We identified key components involved in genome reorganization in the Blepharisma somatic genome and compared them with those of the model ciliates Paramecium, Tetrahymena and Oxytricha. Four transposase families were found encoded in the somatic and germline genomes, namely the PiggyBac, Tc1/Mariner, Mutator and Merlin families. PiggyBac transposases are known to be the main transposases involved in genome reorganization in the model ciliates Paramecium and Tetrahymena, but are entirely absent in Oxytricha, which is thought to use a transposase from another family. In Paramecium, six somatically encoded PiggyBacs incapable of catalysis, plus one catalytically complete homolog called the PiggyMac, coordinate DNA excision. This resembles the situation in Blepharisma, which has thirteen homologs of the PiggyBac transposase, only one of which has a complete catalytic triad and is hence likely to be the primary excisase. The germline-limited genomic regions of Blepharisma were also characterized. Blepharisma IESs share two key features with the IESs of Paramecium, namely a periodic length distribution for short IESs and predominantly TA-dinucleotide delineated IES boundaries. We also identified a class of 24-nucleotide small RNAs that increasingly map to IESs as development progresses in Blepharisma. These trends are similar to those observed in Paramecium and Tetrahymena, hence we propose that they are also so-called “scan” RNAs (scnRNAs) that guide IES excision. Phylogenetic analysis of the Blepharisma PiggyBac homologs showed that they share common ancestry with the PiggyBac homologs of Paramecium and Tetrahymena, where the latter are evolutionarily more divergent than Blepharisma and are located on more recently diverging branches of the ciliate phylogenetic tree. Several lines of evidence from these studies therefore indicate that a PiggyBac transposase is the most likely the main IES excisase in Blepharisma and that the last ciliate common ancestor also possessed this type of transposase.

Published

2022

27. Toblerols: Cyclopropanol‐Containing Polyketide Modulators of Antibiosis in Methylobacteria.

Author

Ueoka, Reiko, Bortfeld‐Miller, Miriam, Vorholt, Julia A., Piel, Jörn, and Morinaka, Brandon I.

Subjects

*CYCLOPROPANOL, *POLYKETIDES, *CHEMICAL synthesis, *ANTIBIOSIS, *METHYLOBACTERIACEAE, *STEREOCHEMISTRY

Abstract

Abstract: Trans‐AT polyketide synthases (PKSs) are a family of biosynthetically versatile modular type I PKSs that generate bioactive polyketides of impressive structural diversity. In this study, we detected, in the genome of several bacteria a cryptic, architecturally unusual trans‐AT PKS gene cluster which eluded automated PKS prediction. Genomic mining of one of these strains, the model methylotroph Methylobacterium extorquens AM1, revealed unique epoxide‐ and cyclopropanol‐containing polyketides named toblerols. Relative and absolute stereochemistry were determined by NMR experiments, chemical derivatization, and the comparison of CD data between the derivatized natural product and a synthesized model compound. Biosynthetic data suggest that the cyclopropanol moiety is generated by carbon–carbon shortening of a more extended precursor. Surprisingly, a knock‐out strain impaired in polyketide production showed strong inhibitory activity against other methylobacteria in contrast to the wild‐type producer. The activity was inhibited by complementation with toblerols, thus suggesting that these compounds modulate an as‐yet unknown methylobacterial antibiotic. [ABSTRACT FROM AUTHOR]

Published

2018

28. Phenotypic and genomics-assisted breeding of soybean for Central Europe : from environmental adaptation to tofu traits

Author

Kurasch, Alena and Kurasch, Alena

Abstract

Soybean (Glycine max Merr.) is one of the major crops in the world providing an important source of protein and oil for food and feed; however it is still a minor crop in Central Europe. Soybean cultivation can play an important role in a more sustainable agricultural system by increasing local and regional protein production in Europe. The demand for locally produced soybean products is still growing in Europe. The key for a successful establishment of soybean cultivation in Europe is adaptation of soybean varieties to the Central European growing conditions. For the latitudinal adaptation to long-day conditions in Central to Northern Europe, an adapted early flowering and maturity time is of crucial importance for a profitable cultivation. The key traits flowering and maturity are quantitatively inherited and mainly affected by photoperiod responsiveness and temperature sensitivity. The most important loci for an early flowering and maturity are E1-E4 and the various allelic combinations condition soybean flowering and maturity time and therefore strongly contribute to the wide adaptability (Jiang et al., 2014; Tsubokura et al., 2014; M. Xu et al., 2013). Besides the main usage as protein source for animal feeding, soybean is also a very valuable source for human consumption. Tofu is enjoying ever greater popularity in Europe, as it is one of the best sources of plant protein with additional health benefits, rich in essential amino acids, beneficial lipids, vitamins, and minerals, as well as other bioactive compounds, such as isoflavones, soyasaponin, and others, (Lima et al., 2017; Zhang et al., 2018). Thus, plant breeding has to provide not only well-adapted varieties with good agronomic and quality properties, but also provide varieties well-suited to the further processing into soymilk and tofu. Therefore, a good knowledge about the breeding target, how to assess it and how it is inherited is crucial. The conducted studies covered a broad range of aspects rele, Die Sojabohne (Glycine max Merr.) ist eine der wichtigsten Nutzpflanzen der Welt und stellt eine wichtige Protein- und Ölquelle für Lebens- und Futtermittel dar; in Mitteleuropa spielt die Sojabohne jedoch immer noch eine untergeordnete Rolle im Anbau. Der Sojabohnenanbau kann eine wichtige Rolle in einem nachhaltigeren Agrarsystem spielen, indem er die lokale und regionale Proteinproduktion in Europa steigert. Die Nachfrage nach lokal produzierten Sojabohnenprodukten wächst in Europa weiter. Der Schlüssel für eine erfolgreiche Etablierung des Sojaanbaus in Europa ist die Anpassung der Sojasorten an die mitteleuropäischen Anbaubedingungen. Für die Breitenanpassung an Langtagbedingungen in Mittel- bis Nordeuropa ist eine angepasste frühe Blüte- und Reifezeit von entscheidender Bedeutung für einen ertragreichen Anbau. Die Schlüsselmerkmale Blüte und Reife werden quantitativ vererbt und hauptsächlich durch die Photoperioden- und Temperaturempfindlichkeit beeinflusst. Die wichtigsten Genorte für eine frühe Blüte und Reife sind E1-E4. Die verschiedenen Allelkombinationen bedingen die Sojabohnenblüte und Reifezeit und tragen daher stark zur breiten Anpassungsfähigkeit bei (Jiang et al., 2014; Tsubokura et al., 2014; M. Xu et al., 2013). Neben der Hauptverwendung als Proteinquelle für die Tierfütterung ist Soja auch eine sehr wertvolle Quelle für die menschliche Ernährung. Lebensmittel auf Sojabasis spielen eine zentrale Rolle in der asiatischen Küche, die sehr unterschiedliche Produkte anbietet, wobei Tofu das wichtigste Produkt ist. Tofu erfreut sich in Europa immer größerer Beliebtheit, da er eine der besten pflanzlichen Proteinquellen mit zusätzlichem Gesundheitsnutzen ist, reich an essentiellen Aminosäuren, nützlichen Lipiden, Vitaminen und Mineralstoffen sowie anderen bioaktiven Verbindungen wie Isoflavonen, Sojasaponin und andere (Lima et al., 2017; Zhang et al., 2018). Daher muss die Pflanzenzüchtung nicht nur gut angepasste Sorten mit guten agronomischen und quali

Published

2022

29. Assessment of phenotypic, genomic and novel approaches for soybean breeding in Central Europe

Author

Zhu, Xintian and Zhu, Xintian

Abstract

Soybean is the economically most important leguminous crop worldwide and serves as a main source of plant protein for human nutrition and animal feed. Europe is dependent on plant protein imports and the EU protein self-sufficiency, which is an issue that has been on the political agenda for several decades, has recently received renewed interest. The protein imports are mainly in the form of soybean meal, and soybean therefore appears well-suited to mitigate the protein deficit in Europe. This, however, requires an improvement of soybean production as well as an expansion of soybean cultivation and thus breeding of new cultivars that combine agronomic performance with adaptation to the climatic conditions in Central Europe. The objective of this thesis was to characterize, evaluate and devise approaches that can improve the efficiency of soybean breeding. Breeding is essentially the generation of new genetic variation and the subsequent selection of superior genotypes as candidates for new cultivars. The process of selection can be supported by marker-assisted or genomic selection, which are both based on molecular markers. A first step towards the utilization of these approaches in breeding is the characterization of the genetic architecture underlying the target traits. In this study, we therefore performed QTL mapping for six target traits in a large population of 944 recombinant inbred lines from eight biparental families. The results showed that some major-effect QTL are present that could be utilized in marker-assisted selection, but in general the target traits are quantitatively inherited. For such traits controlled by numerous small-effect QTL, genomic selection has proven as a powerful tool to assist selection in breeding programs. We therefore also evaluated the genomic prediction accuracy and found this to be high and promising for the six traits of interest. In conclusion, these results illustrated the potential of genomic selection for soybean breedin, Die Sojabohne ist die wirtschaftlich wichtigste Leguminose weltweit und dient als eine Hauptquelle für pflanzliches Eiweiß in der menschlichen Ernährung und im Tierfutter. Europa ist von pflanzlichen Eiweißimporten abhängig und die Selbstversorgung der EU mit Eiweiß, ein Thema, das seit mehreren Jahrzehnten auf der politischen Agenda steht, hat in letzter Zeit wieder an Interesse gewonnen. Die Eiweißimporte erfolgen hauptsächlich in Form von Sojaschrot und Soja scheint daher gut geeignet das Eiweißdefizit in Europa abzumildern. Dies erfordert jedoch eine Steigerung der Sojaproduktion sowie eine Ausweitung des Sojaanbaus und damit die Züchtung neuer Sorten, die agronomische Leistung mit Anpassung an die klimatischen Bedingungen in Mitteleuropa verbinden. Ziel dieser Arbeit war es, Ansätze zu charakterisieren, zu bewerten und zu entwickeln, die die Effizienz der Sojazüchtung verbessern können. Züchtung basiert im Wesentlichen auf der Erzeugung neuer genetischer Variation und der anschließenden Selektion überlegener Genotypen als Kandidaten für neue Sorten. Dieser Selektionsprozess kann durch markergestützte oder genomische Selektion unterstützt werden, die beide auf molekularen Markern beruhen. Ein erster Schritt zur Nutzung dieser Ansätze in der Züchtung ist die Charakterisierung der den Zielmerkmalen zugrundeliegenden genetischen Architektur. Die Ergebnisse zeigten, dass es einige QTL mit großen Effekten gibt, die für die markergestützte Selektion genutzt werden könnten, aber im Allgemeinen werden die Zielmerkmale quantitativ vererbt. Bei solchen Merkmalen, die von zahlreichen QTL mit kleinem Effekt kontrolliert werden, hat sich die genomische Selektion als leistungsfähiges Instrument zur Unterstützung der Selektion in Zuchtprogrammen erwiesen. Deshalb wurde auch die genomische Vorhersagegenauigkeit untersucht und festgestellt, dass diese für die sechs Zielmerkmale hoch und damit vielversprechend ist. Zusammenfassend lässt sich sagen, dass die Ergebnisse das Potenzi

Published

2022

30. Çevresel Kirleticiler ve Plasental Transporterlar: PCB ile SLC ve ABCB1 Örneği

Author

YURDAKÖK DİKMEN, Begüm, UYAR, Recep, KUZUKIRAN, Özgür, ÜNAL, Mehmet Altay, ÇELİK, Tolga, BOZTEPE, Ümmü Gülsüm, KARAKAŞ ALKAN, Kübra, ÖZYÜNÜ, Özgür, TURGUT, Yağmur, SEVGİLİ, Hilal Özdağ, KANCA, Halit, AKTAN, Çağdaş, and FİLAZİ, Ayhan

Subjects

Health Care Sciences and Services, Placenta, genomic, PCB, SLC, ABCB1, Plasenta, genomik, Sağlık Bilimleri ve Hizmetleri

Abstract

Objective: Due to widespread presence and exposure to environmental pollutants, structural and functional changes in membrane transporters could occur, leading to plasental transport of these compounds. In this study, the effects of PCBs on SLC abd ABCB1 membrane transport molecules were evaluated. Materials and Methods: Hemochorial structured human placenta and endotheliochorial structured dog placenta were analyzed for 28 pollutants (PCB, PBDE, PAH and Organochlorines) using GC-MS. The expression profile of the placental whole genome were investigated with RNAseq, and in silico (molecular chelation) and in vitro (SLC and ABCB1 mRNA expression in the placental cell line HTR8/SVneo treated with PCB 101, PCB118) were evaluated. Results: PCB101 826.4μg/kg in one sample out of 60 samples tested; In 23 samples, PCB118 was found to be between 0.14 and 41.9μg/kg. In the bioinformatics findings, there were differences in 742 genes between PCB positive and negative samples in 55 samples that were sequenced (p, Amaç: Çevresel kirletici maruziyetine bağlı olarak işlevselliği değişen ve bozulan membran transportları nedeniyle, bu maddeler plasental bariyeri geçerek plasental kan dolaşımına geçebilmektedir. Çalışmada, çevresel kirleticilerin bu transport proteinleriyle etkileşimlerinin moleküler boyutta incelenmesi amaçlanmaktadır. Gereç ve Yöntem: Araştırma kapsamında hemokoryal yapıya sahip insan ve endotelyokoryal yapıya sahip köpek plasentasında; 28 kirleticinin analizi GC-MS ile yapılmış (PCB, PBDE, PAH ve Organik klorlu pestisitler); RNAseq ile plasental tüm genom ifade profili araştırılmış, in siliko (moleküler kenetleme) ve in vitro (PCB 101, PCB118 uygulanan plasental hücre hattı HTR8/SVneo’da SLC ve ABCB1 mRNA ifadesi) değerlendirilmiştir. Bulgular: Test edilen 60 örnek içerisinde bir örnekte PCB101 826.4μg/kg; 23 örnekte ise PCB118 0.14 ile 41,9μg/kg arasında bulundu. Biyoinformatik bulgularda sekans analizi yapılan 55 numunede PCB pozitif ve negatif numuneler arasında 742 gende farklılık bulundu (p

Published

2022

31. Classification of colorectal cancer based on gene sequencing data with XGBoost model: An application of public health informatics

Author

Sami AKBULUT, Zeynep KÜÇÜKAKÇALI, and Cemil ÇOLAK

Subjects

Colorectal cancer, Genomics, Machine learning, XGBoost model, General Earth and Planetary Sciences, Medicine, Kolorektal kanser, Genomik, Makine öğrenimi, XGBoost modeli, General Environmental Science, Tıp

Abstract

Amaç: Bu çalışma, bir makine öğrenmesi yöntemi olan XGBoost yöntemi ile açık erişimli kolorektal kanser gen verilerini sınıflandırmayı ve temel genleri tanımlamayı amaçlamaktadır.Gereç ve Yöntem: Çalışmada açık erişimli kolorektal kanser gen veri seti kullanıldı. Veri seti, sağlıklı kontrollerden 10 mukozanın ve kolorektal kanserli 12 hastanın kolon mukozasının gen dizileme sonuçlarını içeriyordu. Hastalığı sınıflandırmak için makine öğrenmesi yöntemlerinden biri olan XGboost kullanıldı. Model performansı için doğruluk, dengelenmiş doğruluk, duyarlılık, seçicilik, pozitif tahmin değeri ve negatif tahmin değeri performans metrikleri değerlendirildi.Bulgular: Değişken seçim yöntemine göre 17 gen seçilmiş ve bu girdi değişkenleri ile modelleme yapılmıştır. Modelleme sonuçlarından elde edilen doğruluk, dengeli doğruluk, duyarlılık, özgüllük, pozitif tahmin değeri, negatif tahmin değeri ve F1 puanı sırasıyla %95.5, %95.8, %91.7, %1, %1 ve %90.9 ve %95.7 idi. XGboost tekniği sonucundan elde edilen değişken önemliliklerine göre, CYR61, NR4A, FOSB ve NR4A2 genleri kolorektal kanser için biyolojik belirteçler olarak kullanılabilir.Sonuç: Bu araştırma sonucunda kolorektal kanserle bağlantılı olabilecek genlerin yanı sıra hastalığa yönelik genetik biyobelirteçler de belirlendi. Gelecekte, tespit edilen genlerin güvenilirliği doğrulanabilir, bu genlere dayalı olarak terapötik prosedürler oluşturulabilir ve klinik pratikteki yararları belgelenebilir., Purpose: This study aims to classify open-access colorectal cancer gene data and identify essential genes with the XGBoost method, a machine learning method.Materials and Methods: The open-access colorectal cancer gene dataset was used in the study. The dataset included gene sequencing results of 10 mucosae from healthy controls and the colonic mucosa of 12 patients with colorectal cancer. XGboost, one of the machine learning methods, was used to classify the disease. Accuracy, balanced accuracy, sensitivity, selectivity, positive predictive value, and negative predictive value performance metrics were evaluated for model performance.Results: According to the variable selection method, 17 genes were selected, and modeling was performed with these input variables. Accuracy, balanced accuracy, sensitivity, specificity, positive predictive value, negative predictive value, and F1 score obtained from modeling results were 95.5%, 95.8%, 91.7%, 1%, 1%, and 90.9%, and 95.7%, respectively. According to the variable impotance acquired from the XGboost technique results, the CYR61, NR4A, FOSB, and NR4A2 genes can be employed as biomarkers for colorectal cancer. Conclusion: As a consequence of this research, genes that may be linked to colorectal cancer and genetic biomarkers for the illness were identified. In the future, the detected genes' reliability can be verified, therapeutic procedures can be established based on these genes, and their usefulness in clinical practice may be documented.

Published

2022

32. Molecular Profiling of Thyroid Nodules: Current Role for the Afirma Gene Expression Classifier on Clinical Decision Making.

Author

Kloos, Richard T.

Subjects

*GENE expression, *NEEDLE biopsy, *MEDICAL decision making, *HISTOLOGY, THYROID cancer diagnosis

Abstract

Thyroid fine-needle aspiration biopsy results are cytologically indeterminate in 15-30% of cases. When these nodules undergo diagnostic surgery, approximately three-quarters are histologically benign. These unnecessary surgeries diminish quality of life, generate complications, and increase healthcare costs. The Afirma gene expression classifier (GEC) is validated to preoperatively identify cytologically indeterminate nodules likely to be truly benign so that surgery can be avoided. Its performance is supported by robust multicenter prospective and blinded clinical validation studies, and supported by extensive independent clinical utility publications which show a marked reduction in surgery among patients with benign Afirma GEC results. To ruleout cancer and avoid unnecessary diagnostic surgery, Afirma's quality and depth of validation stand alone. The accuracy of a benign result is the negative predictive value (NPV). Afirma achieves an NPV =94% among cytologically indeterminate nodules (Bethesda III or IV). Thirteen clinical utility studies describing 1468 GEC benign patients demonstrate that few Afirma GEC benign nodules undergo surgery, including after 3 years of follow-up. With a specificity of 52%, over half of the truly benign nodules with indeterminate cytology receive a benign GEC result. High test sensitivity is critical to safely rule out cancer. The Afirma GEC's 90% sensitivity means that regardless of the pre-test risk of malignancy, 90% of all malignant nodules are GEC suspicious. The Afirma GEC has transformed patient care. Where the majority of cytologically indeterminate patients were once operated to determine if the nodule was benign or malignant, now nearly half of these surgeries can be avoided. [ABSTRACT FROM AUTHOR]

Published

2017

33. The Art and Science of Thyroid Surgery in the Age of Genomics: 100 years after Theodor Kocher.

Author

Gulec, Seza

Subjects

*THYROID cancer treatment, *THYROID gland surgery, *GENOMICS, *NUCLEOTIDE sequencing

Abstract

Cancer is a disorder of the genome. The thyroid cancer genome is being decoded. Recent studies have identified a mutation or a genetic alteration in 95% of thyroid cancers. The National Cancer Institute initiated the Cancer Genome Atlas project in 2006 to catalogue genetic mutations associated with cancer, using genome sequencing and bioinformatics. The project has expanded to carry out genomic characterization and sequence analysis of thyroid cancer. The concept of risk stratification based on traditional parameters will soon vacate their role for clear molecular markers of non-invasive/focal, invasive/metastatic and systemic stages/phases of neoplastic disorder. A refined classification scheme based on genomics and its phenotypic expressions will accurately reflect the biologic differences between the different morphologic definitions we use today. Tumor differentiation/de-differentiation, and clinical behavior of an individual cancer will be defined by molecular markers, in addition to standard morpho-pathology. Empiricism in science of medicine and surgery has acquired a new method for testing the appropriate treatment for individual patients; that is molecular pathology, governed by genomics. The technology is present and rapidly evolving. The surgeons will determine the extent of interventions with molecular evidence and guidance. [ABSTRACT FROM AUTHOR]

Published

2017

34. Mide Kanser ve Omik Tabanlı Analizler

Author

Bostancı, Meriç Emre, Doğan, Halef Okan, and Tıp Fakültesi

Subjects

Genomik, Metabolomik, Mide kanseri, Proteomik, Transkriptomik

Abstract

Çoğu normal doku hücresiyle karşılaştırıldığında kanser hücrelerinde belirgin olarak farklı metabolik yolaklarda değişiklikler görülür. Omik tabanlı veri entegrasyonu, mide kanseri araştırmalarında kapsamlı bir şekilde uygulanmıştır. Bu çalışmalar, mide kanseri heterojenliği ve evrelemesi ile bağlantılı çok sayıda mutasyon, gen ekspresyon farklılıkları, protein farklılıkları, epigenetik mutasyonlar ve metabolit konsantrasyon farklılıklarını başarıyla tanımlamıştır. Son zamanlarda, mide kanserinin genomik altyapısı kapsamlı bir şekilde araştırılmış ve gözden geçirilmiştir. Kanser genom atlası ve Asya Araş- tırma Grubu verileri dahil olmak üzere tüm genomik verilerin kullanımı ile mide kanserine karşı klinik terapötiklere rehberlik edebilecek yeni ve sağlam moleküler sınıflandırıcıların geliştirilmesine olanak sağlamıştır. Proteomik, protein ekspresyonu ve translasyon sonrası modifikasyonlar hakkında ek bilgi sağlayarak genomik ve transkriptomik yaklaşımları tamamlar. Şimdiye kadar mide kanserindeki proteomik çalışmaların çoğu, plazma örneklerinden biyobelirteçlerin keşfine odaklanmıştır. Proteomik verilerinin diğer tipteki omik verileriyle entegrasyonu, somatik mutasyonlarla ilişkili sinyal yollarının aydınlatılmasına da olanak sağladı. Farklı transkriptomik alt tipleri ortaya çıkan mide kanserinin sınıflandırılması için gen ekspresyonu da uygulanmıştır. Hem popülasyon hem de tek hücre düzeyinde gen ekspresyonu profili, mide kanserinin heterojenliğini ve immün mikroçevre ile mide kanseri arasındaki karmaşık ilişkiyi aydınlatır ve bu da doğru tanı ve kişiselleştirilmiş terapötik yaklaşımlar geliştirmek için değerli ipuçları sağlayabilir. Metabolomik çalışmalar ile plazma örneklerinden mide kanseri ile ilişkili biyobelirteçlerin keşfine odaklanıldı. Hedeflenen veya hedeflenmeyen metabolomik analizler kullanılarak plazma, idrar, mide suyu ve karsinom dokularında çok sayıda metabolik değişiklik tanımlanmıştır. Genomik, transkriptomik, proteomik ve metabolomik araştırmalar hücreler dokular ve organlarla ilişkili çoklu hastalıklarda etiyolojik süreçlerin geniş ölçekli kesitlerini elde etme imkanı sağlamaktadır. Bunlar, geleneksel yaklaşımların ötesine geçerek bazı spesifik bozuklukların kritik biyolojik proseslerini belirlenmesine de olanak sağlamaktadır. Omik özellikler ile mide kanseri gelişimi arasında güçlü ilişkiler ortaya koyan mide kanseri araştırmalarında Omik çalışmaları yaygın olarak uygulanmıştır. Genom, transkriptom, proteom ve metabolom düzeylerinden elde edilen omik verileri ile mide kanseri kapsamlı bir şekilde katmanlara ayrılmıştır ve ortaya çıkan alt tipler, terapötik sonuçlarla güçlü korelasyonlar göstermektedir. Çoklu omik verilerinin sistem biyolojisi tabanlı entegrasyonu, kanser teşhisi ve tedavisine ilişkin birçok öngörü sağlamıştır

Published

2022

35. Modeling novel bioinformatics approaches to investigate bioactive substance production based on genomics and transcriptomics

Author

Vignolle, Gabriel Alexander

Subjects

Transkriptomik, FOS: Computer and information sciences, Bioinformatics, Secondary metabolites, Bioinformatik, Metagenomik, Genomics, Genomik, Biosynthetic gene clusters, Sekund��rmetaboliten, Genome mining, biosynthetische Gen Cluster, Metagenomics, Transcriptomics, Genom Mining

Abstract

Genome-Mining- und Bioinformatik-Technologien sind in der heutigen Zeit f��r die Suche nach neuartigen Sekund��rmetaboliten (SM) unverzichtbar geworden. SM sind eine gro��e Gruppe von Verbindungen mit unterschiedlichen Strukturen und Eigenschaften. Sie werden meist von Enzymen produziert, deren entsprechende Gene im Genom kolokalisiert sind und in biosynthetischen Genclustern (BGC) organisiert sind. Die Identifizierung und Suche von BGC ist ein Schl��sselaspekt der Naturstoffbioinformatik geworden. Dar��ber hinaus ist die Entdeckung neuer SM-Klassen in den Genomen von Pilzen, sogenannter ���Dark Matter���-BGC, ein Gegenstand derzeitiger Forschung. In dieser Dissertation wurden verschiedene Themen mit dem Ziel behandelt, den Nachweis und die Analyse exotischer Biosynthesewege von SM zu erleichtern. Diese verschiedenen Themen besitzen als gemeinsamen roten Faden die Suche und Beschreibung von SM-BGC. Diese Doktorarbeit umfasst mehrere ver��ffentlichte und eingereichte Studien, die in einer angemessenen Reihenfolge thematisch geordnet sind. Das erste angesprochene Thema ist die Identifizierung neuer BGC in Pilzen. Zu diesem Zweck wurde eine neue Methode zum Analysieren von Pilzgenomen eingef��hrt, diese detektiert ribosomal synthetisierte und posttranslational modifizierte Peptide (RiPPs) durch Kombination und Anpassung vorhandener Werkzeuge, gefolgt von einer umfangreichen manuellen Kurierung basierend auf der Identifizierung konservierter Dom��nen, (vergleichende) phylogenetische Analysen und durch die Anwendung von RNASeq-Daten. RiPPs sind eine sehr vielf��ltige Gruppe von SM und wurden vor kurzem in Pilzgenomen eingehend untersucht. Gene, die an der Biosynthese von RiPPs in Pilzen beteiligt sind, wie f��r viele andere SM, sind in BGC gepackt. Die vorliegende Ver��ffentlichung ist der erste Bericht ��ber das Potenzial der Pilzgattung Trichoderma zur Produktion von RiPPs. Erw��hnenswert ist, dass die mit dieser neuartigen Methode entdeckten Cluster, Gene beinhalten die Enzyme kodieren f��r den Biosyntheseweg f��r neuartige uncharakterisierte Pilz-RiPPs. Neben dem Aspekt, nach neuartigen BGCs zu suchen, war die eingehende Analyse der gefundenen BGC ein Ziel. BGC k��nnen sogenannte Gap-Gene enthalten, die nicht an der Biosynthese des SM beteiligt sind. Gap-Gene von Genen zu unterscheiden, die an der Biosynthese beteiligt sind, ist eine langwierige, teure und m��hsame Aufgabe. Diesem Thema widmeten sich zwei Studien, von denen die erste das Functional Order Tool (FunOrder) als halbautomatische Methode zur Identifizierung koevolution��r verkn��pfter Gene in BGC vorstellte. Die Ergebnisse legen nahe, dass die Koevolution von Proteinfamilien f��r die Differenzierung von Gap-Genen von biosynthetisch aktiven Genen genutzt werden kann. In der anschlie��enden Studie wird das verbesserte und vollautomatisierte FundOrder 2 vorgestellt, bei den fr��heren Einschr��nkungen durch die Einf��hrung einer vollautomatisierten und verbesserten Bestimmung von koevolvierten Genen behoben wurden. Der automatisierte Nachweis koevolvierender Gene verwendet mehrere mathematische Indizes, um die optimale Anzahl von Gengruppen in den FunOrder-Daten zu bestimmen und die Implementierung von k-Means-Clustering basierend auf den ersten drei Hauptkomponenten (PC) einer Hauptkomponentenanalyse (PCA) bestimmt diese. FunOrder 2 kann als wesentliche Verbesserung gegen��ber seinem Vorg��nger angesehen werden, insbesondere durch die automatisierte Analyse ohne Bias und die Anpassung an gr����ere Datenbanken. Im weiterer Folge wird Sequenzierung, Assemblierung und Analyse neuartiger uncharakterisierter Pilzarten thematisiert, mit dem Hauptfokus auf die Suche und Analyse ihres SM-Produktionspotenzials. Vier Genome wurden sequenziert und in zwei Studien pr��sentiert, die das letzte Thema dieser Arbeit behandeln. Zun��chst wird die Genomsequenz des schwarzen hefe��hnlichen Pilz Aureobasidium pullulans var. aubasidani CBS 100524, mit industrieller Relevanz durch ausgeschiedene extrazellul��re Polysaccharide, vorgestellt und kurz beschrieben. Darauf folgt eine Studie, die eine eingehende vergleichende Genomanalyse und die phylogenetische Reklassifizierung von drei sequenzierten Wardomyces moseri St��mmen durchf��hrt. W. Gams beschrieb den Ascomyceten W. moseri erstmals 1995. W��hrend einer phylogenetischen Studie im Jahr 2016 wurde W. moseri als phylogenetisch fehlplaziert beschrieben und sollte daher neu bewertet werden. Das metabolische Potenzial dieses historischen Pilzes wurde analysiert und seine Taxonomie neu bewertet, indem die Genome des Ex-Isotyp-Stamms W. moseri CBS 164.80 und zwei Isolate von der anderen Seite der Welt, W. moseri TUCIM 5827 und TUCIM 5799, sequenziert wurden. Es konnte gezeigt werden, wie historische St��mme aus bereits bestehenden Stamm-Sammlungen f��r die Suche nach neuartigen Naturstoffen benutzt werden k��nnen. Im Anhang aufgef��hrt sind abschlie��end interdisziplin��re Studien, die aus Kooperationen mit verschiedenen Arbeitsgruppen hervorgegangen sind., Genome mining and bioinformatics technologies have become essential to the discovery process of novel secondary metabolites (SMs). SMs are a vast group of compounds with different structures and properties. Enzymes whose corresponding genes are co-localized in the genome, organized in biosynthetic gene clusters (BGCs), readily produce them. The identification and search of BGCs is a key aspect of natural product bioinformatics. Further, the detection of novel SM classes in the genomes of fungi, so termed ���dark-matter��� BGCs, is an ongoing subject of research. In this thesis, various topics were addressed for the ultimate goal to facilitate the detection and analysis of exotic biosynthetic pathways of SMs. These different subjects are connected by the search for and description of SM BGCs. This thesis encloses several published and submitted studies and orders them thematically. The first issue addressed is the identification of novel BGCs in fungi, a novel method to mine fungal genomes for ribosomally synthesized and post-translationally modified peptides (RiPPs) by combining and adapting existing tools followed by extensive manual curation based on conserved domain identification, (comparative) phylogenetic analysis, and RNASeq data was introduced for this purpose. RiPPs are a highly diverse group of SM and have been recently started to be studied in more depth in fungal genomes. Genes involved in the biosynthesis of fungal RiPPs, as for many other SMs, are packed in BGCs. The presented publication is the first report of the potential of the fungal genus Trichoderma to produce RiPPs and the clusters detected by this novel method encode genes that ultimately lead to novel uncharacterized fungal RiPPs. Besides the aspect to search for novel BGCs, the in depth analysis of detected BGCs was a target. BGCs may contain so-called gap genes, which are not involved in the biosynthesis of the SM. To differentiate gap genes from genes involved in the biosynthesis is a lengthy, expensive and arduous task. This topic was addressed by two studies the first describing and introducing the Functional Order tool (FunOrder), as a semi-automated method for the identification of co-evolutionary linked genes in BGCs. The results suggest that protein family co-evolution can be leveraged for the differentiation of gap genes from genes involved in the biosynthesis of a SM. In the subsequent study, the improved and fully automated FunOrder 2 is presented, where previous limitations were address by introducing a fully automated and enhanced determination of co-evolved genes. The automated detection of co-evolving genes uses several mathematical indices to determine the optimal number of gene groups in the FunOrder output and the implementation of k-means clustering based on the first three principal components (PC) of a principal component analysis (PCA) detects them. FunOrder 2 can be seen as a major improvement over its predecessor, especially considering the unbiased automated analysis and the adaptation to larger databases. The last theme is the topic of sequencing, assembly and analysis of novel uncharacterized fungal species primarily for the search and analysis of their slumbering SM production potential. Four genomes have been sequenced included in two studies that address the final topic in this thesis. First, the genome sequence of the black yeast-like strain Aureobasidium pullulans var. aubasidani CBS 100524 with industrial relevance due to excreted extracellular polysaccharides is introduced and briefly described. This is followed by a study performing an in depth comparative genomic analysis and phylogenetic replacement of three sequenced Wardomyces moseri strains. W. Gams first described the ascomycete W. moseri in 1995. During a phylogenetic study in 2016 W. moseri was suggested to be phylogenetically misplaced and should therefore be re-evaluated. The metabolic potential of this historic fungus was analyzed and its taxonomy re-evaluated, by sequencing the genomes of the ex-isotype strain W. moseri CBS 164.80 and two isolates from the opposite side of the world, W. moseri TUCIM 5827 and TUCIM 5799. It could be demonstrated how historic strains from already existing collections can be used for the search of novel natural products.Finally listed in the appendix, are interdisciplinary studies fruited from collaborations with different working groups

Published

2022

36. Testing a riverine radiation - Evolutionary systematics of an endemic, viviparous freshwater gastropod in the Kaek River, Thailand

Author

Lentge-Maaß, Nora, Glaubrecht, Matthias, Hoch, Hannelore, and Nyakatura, John

Subjects

Gastropoden, Speziation, gastropods, Brotia, 570 Biologie, Genomik, Evolutionssystematik, evolutionary systematics, speciation, ddc:570, morphology, WH 8350, genomics, Morphologie, WQ 8025

Abstract

Die Prozesse, durch die Organismen an ihre Umwelt angepasst werden, und die zur Vielfalt der Organismen führen, sind Gegenstand evolutionsbiologischer Fragestellungen. Üblicherweise startet Artenbildung durch das graduelle Auftreten physischer Barrieren, welches dann in reproduktive Inkompatibilitäten und/oder ökologische Differenzierungen mündet. Obwohl die weltweite Biodiversität hauptsächlich durch wirbellose Organismen gestellt wird, sind diese in Studien zu Artenbildungsmechanismen unterrepräsentiert. Eine beeindruckende Evolutionsgeschichte von etwa 550 Millionen Jahren weisen die Mollusken auf, bei denen es zu einer dramatischen Variation der Körperbaupläne und einer enormen morphologischen Variabilität kam. Süßwassermollusken sind besonders als Studienobjekte geeignet, da sie ein durch natürliche Barrieren begrenztes Habitat bewohnen. Die Süßwasserschnecken der Gattung Brotia bilden einen Artenschwarm im Kaek River in Thailand und sind eine der wenigen bekannten Schneckenradiationen im Süßwasser. Brandt beschrieb zehn Brotia-Arten, dieser Befund wurde später auf sieben Arten begrenzt. Demnach unterscheiden sich diese Schnecken in der Morphologie ihrer Schale und bilden drei verschiedene Radulatypen aus. Die Analysen dieses integrierten evolutionssystematischen Datensatzes aus traditionellen und modernen morphologischen und genetischen Methoden deuten darauf hin, dass die Anzahl an Brotia-Arten noch kleiner ist als die vorherigen Studien vermuten ließen. Es finden sich jeweils zwei genetische Cluster am Oberlauf und am Unterlauf des Kaek River; mit einer Mischzone im Mittelauf. Eine Analyse der genetisch bestimmten Individuen dieser Cluster zeigte signifikante Schalenmorphologische Unterschiede. Weiterführende Studien müssen klären, ob diese durch genomische Untersuchungen aufgedeckten Cluster lediglich Populationen weniger, aber phänotypisch extrem diverser Brotia-Arten sind. Evolutionary biologists try to untangle and explain two major features of the living world, viz. the process by which organisms adapt to their environment and the processes that lead to species diversity. Speciation might start by physical isolation, which can also be accumulative and further result in reproductive incompatibilities and/or ecological differences. Although invertebrates represent the majority of biodiversity they are underrepresented in speciation studies. The at least 550 million years of evolution within the phylum Mollusca have resulted in a dramatic variation in body plans and enormous morphological diversity, which makes them an ideal group for comparative studies of phenotypic diversity, speciation and radiation. Freshwater mollusc taxa are exceptionally suited for such studies because they inhabit an environment with clear boundaries that act as dispersal barriers. The Brotia species flock found along the Kaek River in northern Thailand is one of very few known radiations of gastropods in a riverine setting. The species were reported to exhibit distinct shell morphologies and radula types. The main objective of this study was to investigate this species swarm, potentially being a new system to study speciation and even adaptive radiation in invertebrates in a riverine setting. Morphology and ecology, inter- and intraspecific divergence of Brotia were investigated. The analyses of an integrated dataset found hints that the actual number of species might be substantially lower than expected. Both, mitochondrial and nuclear markers revealed a geographic structure separating headwaters from the lower river courses, with an area of admixture in between. Additionally, in both geographic areas two clusters were identified, which are significantly different in morphology. Future studies will have to determine whether these clusters are populations of originally only two, but now highly diverse Brotia species.

Published

2021

37. 12 Jahre AFNET. Vom Forschungsnetzwerk zur Academic Research Organisation.

Author

Kirchhof, Paulus, Goette, Andreas, Näbauer, Michael, and Schotten, Ulrich

Abstract

Copyright of Bundesgesundheitsblatt - Gesundheitsforschung - Gesundheitsschutz is the property of Springer Nature and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2016

38. Integration of hyperspectral, genomic, and agronomic data for early prediction of biomass yield in hybrid rye (Secale cereale L.)

Author

Galán, Rodrigo José and Galán, Rodrigo José

Abstract

Currently, the combination of a growing bioenergy demand and the need to diversify the dominant cultivation of energy maize opens a highly attractive scenario for alternative biomass crops. Rye (Secale cereale L.) stands out for its vigorous growth and increased tolerance to abiotic and biotic stressors. In Germany, less than a quarter of the total harvest is used for food production. Consequently, rye arises as a source of renewables with a reduced bioenergy-food tradeoff, emerging biomass as a new breeding objective. However, rye breeding is mainly driven by grain yield while biomass is destructively evaluated in later selection stages by expensive and time-consuming methods. The overall motivation of this research was to investigate the prospects of combining hyperspectral, genomic, and agronomic data for unlocking the potential of hybrid rye as a dual-purpose crop to meet the increasing demand for renewable sources of energy affordably. A specific aim was to predict the biomass yield as precisely as possible at an early selection stage. For this, a panel of 404 elite rye lines was genotyped and evaluated as testcrosses for grain yield and a subset of 274 genotypes additionally for biomass. Field trials were conducted at four locations in Germany in two years (eight environments). Hyperspectral fingerprints consisted of 400 discrete narrow bands (from 410 to 993 nm) and were collected in two points of time after heading for all hybrids in each site by an uncrewed aerial vehicle. In a first study, population parameters were estimated for different agronomic traits and a total of 23 vegetation indices. Dry matter yield showed significant genetic variation and was stronger correlated with plant height (r_g=0.86) than with grain yield (r_g=0.64) and individual vegetation indices (r_g: =<|0.35|). A multiple linear regression model based on plant height, grain yield, and a subset of vegetation indices surpassed the prediction ability for dry matter yield of models base, Die Kombination eines wachsenden Bioenergiebedarfs und die Notwendigkeit, den vorherrschenden Anbau von Energiemais zu diversifizieren, eröffnen ein äußerst attraktives Szenario für alternative Biomassekulturen. Roggen (Secale cereale L.) zeichnet sich, durch ein kräftiges vegetatives Wachstum und eine erhöhte Toleranz gegenüber abiotischen und biotischen Stressfaktoren. In Deutschland wird weniger als ein Viertel der gesamten Roggenernte für die Lebensmittelproduktion verwendet. Daher gewinnt Roggen durch einen geringeren Zielkonflikt zwischen Bioenergie- und Lebensmittelnutzung an Bedeutung als Quelle für erneuerbare Energien, wobei Biomasse als neues Züchtungsziel auftaucht. Die Roggenzüchtung konzentriert sich derzeit jedoch hauptsächlich auf den Kornertrag, während die Biomasse in späteren Selektionsstadien durch teure und zeitaufwändige Methoden destruktiv erfasst wird. Die übergeordnete Motivation dieser Arbeit war es, die Aussichten der Kombination von hyperspektralen, genomischen und agronomischen Daten für die Erschließung des Potenzials von Hybridroggen als Zweinutzungspflanze zu untersuchen, um den steigenden Bedarf an erneuerbaren Energiequellen kostengünstig zu decken. Das spezifische Ziel war es, den Biomasseertrag in einem frühen Selektionsstadium so genau wie möglich vorherzusagen. Dazu wurde ein Panel von 404 Elitelinien genotypisiert und als Testkreuzungen für Kornertrag - eine Teilmenge von 274 Genotypen auch für Biomasse-Ertrag – ausgewertet. Feldversuche wurden an vier Standorten in zwei Jahren in Deutschland (entspricht acht Umwelten) durchgeführt. Die hyperspektralen Daten (400 diskreten Banden; 410-993 nm) wurden zu zwei Zeitpunkten nach dem Ährenschieben für alle Testkreuzungen an jedem Ort von einer Drohne gesammelt. In einer ersten Studie wurden Populationsparameter für verschiedene agronomische Merkmale und insgesamt 23 Vegetationsindizes geschätzt. Der Trockenmasseertrag zeigte eine signifikante genetische Variation und korrelierte stär

Published

2021

39. Testing a riverine radiation - Evolutionary systematics of an endemic, viviparous freshwater gastropod in the Kaek River, Thailand

Author

Glaubrecht, Matthias, Hoch, Hannelore, Nyakatura, John, Lentge-Maaß, Nora, Glaubrecht, Matthias, Hoch, Hannelore, Nyakatura, John, and Lentge-Maaß, Nora

Abstract

Die Prozesse, durch die Organismen an ihre Umwelt angepasst werden, und die zur Vielfalt der Organismen führen, sind Gegenstand evolutionsbiologischer Fragestellungen. Üblicherweise startet Artenbildung durch das graduelle Auftreten physischer Barrieren, welches dann in reproduktive Inkompatibilitäten und/oder ökologische Differenzierungen mündet. Obwohl die weltweite Biodiversität hauptsächlich durch wirbellose Organismen gestellt wird, sind diese in Studien zu Artenbildungsmechanismen unterrepräsentiert. Eine beeindruckende Evolutionsgeschichte von etwa 550 Millionen Jahren weisen die Mollusken auf, bei denen es zu einer dramatischen Variation der Körperbaupläne und einer enormen morphologischen Variabilität kam. Süßwassermollusken sind besonders als Studienobjekte geeignet, da sie ein durch natürliche Barrieren begrenztes Habitat bewohnen. Die Süßwasserschnecken der Gattung Brotia bilden einen Artenschwarm im Kaek River in Thailand und sind eine der wenigen bekannten Schneckenradiationen im Süßwasser. Brandt beschrieb zehn Brotia-Arten, dieser Befund wurde später auf sieben Arten begrenzt. Demnach unterscheiden sich diese Schnecken in der Morphologie ihrer Schale und bilden drei verschiedene Radulatypen aus. Die Analysen dieses integrierten evolutionssystematischen Datensatzes aus traditionellen und modernen morphologischen und genetischen Methoden deuten darauf hin, dass die Anzahl an Brotia-Arten noch kleiner ist als die vorherigen Studien vermuten ließen. Es finden sich jeweils zwei genetische Cluster am Oberlauf und am Unterlauf des Kaek River; mit einer Mischzone im Mittelauf. Eine Analyse der genetisch bestimmten Individuen dieser Cluster zeigte signifikante Schalenmorphologische Unterschiede. Weiterführende Studien müssen klären, ob diese durch genomische Untersuchungen aufgedeckten Cluster lediglich Populationen weniger, aber phänotypisch extrem diverser Brotia-Arten sind., Evolutionary biologists try to untangle and explain two major features of the living world, viz. the process by which organisms adapt to their environment and the processes that lead to species diversity. Speciation might start by physical isolation, which can also be accumulative and further result in reproductive incompatibilities and/or ecological differences. Although invertebrates represent the majority of biodiversity they are underrepresented in speciation studies. The at least 550 million years of evolution within the phylum Mollusca have resulted in a dramatic variation in body plans and enormous morphological diversity, which makes them an ideal group for comparative studies of phenotypic diversity, speciation and radiation. Freshwater mollusc taxa are exceptionally suited for such studies because they inhabit an environment with clear boundaries that act as dispersal barriers. The Brotia species flock found along the Kaek River in northern Thailand is one of very few known radiations of gastropods in a riverine setting. The species were reported to exhibit distinct shell morphologies and radula types. The main objective of this study was to investigate this species swarm, potentially being a new system to study speciation and even adaptive radiation in invertebrates in a riverine setting. Morphology and ecology, inter- and intraspecific divergence of Brotia were investigated. The analyses of an integrated dataset found hints that the actual number of species might be substantially lower than expected. Both, mitochondrial and nuclear markers revealed a geographic structure separating headwaters from the lower river courses, with an area of admixture in between. Additionally, in both geographic areas two clusters were identified, which are significantly different in morphology. Future studies will have to determine whether these clusters are populations of originally only two, but now highly diverse Brotia species.

Published

2021

40. Genomics-assisted breeding strategies for quantitative resistances to Northern corn leaf blight in maize (Zea mays L.) and Fusarium diseases in maize and in triticale (× Triticosecale Wittm.)

Author

Galiano Carneiro, Ana Luísa and Galiano Carneiro, Ana Luísa

Abstract

Fusarium head blight (FHB) in triticale (× Triticosecale Wittm.), Gibberella ear rot (GER) and Northern corn leaf blight (NCLB) in maize (Zea mays L.) are devastating crop diseases causing yield losses and/or reducing grain quality worldwide. Resistance breeding is the most efficient and sustainable approach to reduce the damages caused by these diseases. For all three pathosystems, a quantitative inheritance based on many genes with small effects has been described in previous studies. Hence, this thesis aimed to assess the potential of genomics-assisted breeding strategies to reduce FHB, GER and NCLB in applied breeding programs. In particular, the objectives were to: (i) Dissect the genetic architecture underlying quantitative variation for FHB, GER and NCLB through different quantitative trait loci (QTL) and association mapping approaches; (ii) assess the potential of genomics-assisted selection to select superior triticale genotypes harboring FHB resistance; (iii) phenotype and characterize Brazilian resistance donors conferring resistance to GER and NCLB in multi-environment trials in Brazil and in Europe; and (iv) evaluate approaches for the introgression and integration of NCLB and GER resistances from tropical to adapted germplasm. The genome-wide association study (GWAS) conducted for FHB resistance in triticale revealed six QTL that reduced damages by 5 to 8%. The most prominent QTL identified in our study was mapped on chromosome 5B and explained 30% of the genotypic variance. To evaluate the potential of genomic selection (GS), we performed a five-fold cross-validation study. Here, weighted genomic selection increased the prediction accuracy from 0.55 to 0.78 compared to the non-weighted GS model, indicating the high potential of the weighted genomic selection approach. The successful application of GS requires large training sets to develop robust models. However, large training sets based on the target trait deoxynivalenol (DON) are usually not availa, Ährenfusariosen (Fusarium head blight, FHB) in Triticale (× Triticosecale Wittm.), sowie Kolbenfusariosen (Gibberella ear rot, GER) und Turcicum-Blattdürre (Northern corn leaf blight, NCLB) im Mais (Zea mays L.), sind weltweit verheerende Schaderreger, die zu Ertragseinbußen und verminderter Erntegutqualität führen können. Die Resistenzzüchtung ist die effizienteste und nachhaltigste Methode, um die auftretenden Schadwirkungen dieser Pflanzenkrankheiten zu minimieren. Für alle drei Pathosysteme wurden bereits quantitative Resistenzen in der Literatur beschrieben. Die Zielsetzung der vorliegenden Arbeit war daher, das Potenzial genomisch unterstützter Zuchtstrategien zur Reduktion von FHB, GER und NCLB zu untersuchen. Insbesondere wurden dabei die nachfolgenden Ziele verfolgt: (i) die genetische Architektur von FHB, GER und NCLB mit verschiedenen QTL- und Assoziationskartierungsansätzen zu untersuchen; (ii) das Potential genomisch unterstützter Zuchtstrategien zur Selektion von Triticale Genotypen mit verbesserter FHB Resistenz zu bewerten; (iii) die Charaktierisierung und Phänotypisierung brasilianischer Resistenzdonoren für GER und NCLB in mehreren Umwelten in Brasilien und Europa; und (iv) Ansätze für die Einkreuzung und Intergration von tropischen NCLB und GER Resistenzquellen in europäisches Zuchtmaterial zu bewerten. Die genomweite Assoziationskartierung (GWAS) für FHB Resistenz in Triticale identifizierte sechs QTL, die eine Reduktion im Befallswert zwischen 5 und 8% erklärten. Der vielversprechendste QTL wurde auf Chromosome 5B identifizert und erklärte 30% der genotypischen Varianz. Um das Potenzial der genomischen Selektion (GS) zu evaluieren, wurde eine fünffache Kreuzvalidierung durchgeführt. Hier zeigte eine gewichtete genomische Selektion (wGS) einen Anstieg in der Vorhersagegenauigkeit von 0.55 auf 0.78, verglichen zum ungewichteten GS Modell. Dies unterstreicht das Potenzial der wGS Methode. Eine erfolgreiche Implementierung von GS benötigt eine ausre

Published

2021

41. Breeding for resistance to Fusarium ear diseases in maize and small-grain cereals using genomic tools

Author

Gaikpa, David Sewordor and Gaikpa, David Sewordor

Abstract

The world’s human and livestock population is increasing and there is the need to increase quality food production to achieve the global sustainable development goal 3, zero hunger by year 2030 (United Nations, 2015). However, biotic stresses such as Fusarium ear infections pose serious threat to cereal crop production. Breeding for host plant resistance against toxigenic Fusarium spp. is a sustainable way to produce more and safer cereal crops such as maize and small-grain winter cereals. Many efforts have been made to improve maize and small-grain cereals for ear rot (ER) and Fusarium head blight (FHB) resistances, using conventional and genomic techniques. Among small-grain cereals, rye had the shortest maturity period followed by the descendant, hexaploid triticale while both wheat species had the longest maturity period. In addition, rye and triticale were more robust to Fusarium infection and deoxynivalenol accumulation, making them safer grain sources for human and animal consumption. However, a few resistant cultivars have been produced by prolonged conventional breeding efforts in durum wheat and bread wheat. High genetic variation was present within each crop species and can be exploited for resistance breeding. In this thesis, the genetic architecture of FHB resistance in rye was investigated for the first time, by means of genome-wide association study (GWAS) and genomic prediction (GP). GWAS detected 15 QTLs for Fusarium culmorum head blight severity, of which two had major effects. Both weighted and unweighted GP approaches yielded higher prediction abilities than marker-assisted selection (MAS) for FHB severity, heading stage and plant height. Genomics-assisted breeding can shorten the duration of breeding rye for FHB resistance. In the past decade, genetic mapping and omics were used to identify a multitude of QTLs and candidate genes for ear rot resistances and mycotoxin accumulation in maize. The polygenic nature of resistance traits, high genotype, Um das Ziel 3 für nachhaltige Entwicklung, das Ende des Hungers bis 2030 (United Nations, 2015) zu erreichen, muss durch den Anstieg der Weltbevölkerung die Nahrungsmittelproduktion deutlich erhöht werden. Gleichzeitig aber bedrohen Pflanzenkrankheiten wie Fusariosen die Getreideproduktion. Die Züchtung von Sorten mit Resistenzen gegen die (für Mensch und Tier) giftigen Pilze der Gattung Fusarium ist ein nachhaltiger Weg, um größere Mengen und weniger toxin-belastetes Getreide zu produzieren. Viele Versuche wurden unternommen, um die Resistenz gegen Kolbenfäule in Mais und gegen Ährenfusariosen (Fusarium head blight, FHB) in kleinkörnigem Getreide mit konventionellen und genomischen Züchtungsmethoden zu verbessern. In unseren Untersuchungen waren Roggen und Triticale am widerstandsfähigsten gegen Fusarium-Infektionen und hatten die geringste Deoxynivalenol-Kontamination, was sie zu weniger toxischen Nahrungs- und Futtermitteln macht. Aber auch für Hart- und Weichweizen gibt es durch langjährige konventionelle Züchtung einzelne resistente Sorten. Eine hohe genetische Variation konnte bei allen Getreidearten beobachtet werden und kann damit für zukünftige Resistenzzüchtung verwendet werden. In dieser Arbeit wurde zum ersten Mal mit Hilfe einer genomweiten Assoziationsstudie (genome-wide association study, GWAS) und genomischer Vorhersage (genomic prediction, GP) die genetische Architektur der Fusarium-Resistenz in Roggen untersucht. GWAS konnten 15 Loci (quantitative trait loci, QTL) für die Resistenz gegen Fusarium culmorum gefunden werden, zwei davon mit Haupt-Effekten (major effects). Sowohl die gewichtete als auch die ungewichtete genomische Vorhersage erzielten für Fusariumbefall, Ährenschieben und Wuchshöhe höhere Genauigkeiten als die markergestützte Selektion (marker-assisted selection, MAS). Genomische Daten können damit die Züchtung von Fusarium-resistentem Roggen beschleunigen. In den letzten zehn Jahren wurden genetische Kartierungen und Omics verwendet, u

Published

2021

42. Exploring DeepSEA CNN and DNABERT for Regulatory Feature Prediction of Non-coding DNA

Author

Stachowicz, Jacob and Stachowicz, Jacob

Abstract

Prediction and understanding of the regulatory effects of non-coding DNA is an extensive research area in genomics. Convolutional neural networks have been used with success in the past to predict regulatory features, making chromatin feature predictions based solely on non-coding DNA sequences. Non-coding DNA shares various similarities with the human spoken language. This makes Language models such as the transformer attractive candidates for deciphering the non-coding DNA language. This thesis investigates how well the transformer model, usually used for NLP problems, predicts chromatin features based on genome sequences compared to convolutional neural networks. More specifically, the CNN DeepSEA, which is used for regulatory feature prediction based on noncoding DNA, is compared with the transformer DNABert. Further, this study explores the impact different parameters and training strategies have on performance. Furthermore, other models (DeeperDeepSEA and DanQ) are also compared on the same tasks to give a broader comparison value. Lastly, the same experiments are conducted on modified versions of the dataset where the labels cover different amounts of the DNA sequence. This could prove beneficial to the transformer model, which can understand and capture longrange dependencies in natural language problems. The replication of DeepSEA was successful and gave similar results to the original model. Experiments used for DeepSEA were also conducted on DNABert, DeeperDeepSEA, and DanQ. All the models were trained on different datasets, and their results were compared. Lastly, a Prediction voting mechanism was implemented, which gave better results than the models individually. The results showed that DeepSEA performed slightly better than DNABert, regarding AUC ROC. The Wilcoxon Signed-Rank Test showed that, even if the two models got similar AUC ROC scores, there is statistical significance between the distribution of predictions. This means that the models look at, Arbetet kring hur icke-kodande DNA påverkar genreglering är ett betydande forskningsområde inom genomik. Convolutional neural networks (CNN) har tidigare framgångsrikt använts för att förutsäga reglerings-element baserade endast på icke-kodande DNA-sekvenser. Icke-kod DNA har ett flertal likheter med det mänskliga språket. Detta gör språkmodeller, som Transformers, till attraktiva kandidater för att dechiffrera det icke-kodande DNA-språket. Denna avhandling undersöker hur väl transformermodellen kan förutspå kromatin-funktioner baserat på gensekvenser jämfört med CNN. Mer specifikt jämförs CNN-modellen DeepSEA, som används för att förutsäga reglerande funktioner baserat på icke-kodande DNA, med transformern DNABert. Vidare undersöker denna studie vilken inverkan olika parametrar och träningsstrategier har på prestanda. Dessutom jämförs andra modeller (DeeperDeepSEA och DanQ) med samma experiment för att ge ett bredare jämförelsevärde. Slutligen utförs samma experiment på modifierade versioner av datamängden där etiketterna täcker olika mängder av DNA-sekvensen. Detta kan visa sig vara fördelaktigt för transformer modellen, som kan förstå beroenden med lång räckvidd i naturliga språkproblem. Replikeringen av DeepSEA experimenten var lyckad och gav liknande resultat som i den ursprungliga modellen. Experiment som användes för DeepSEA utfördes också på DNABert, DeeperDeepSEA och DanQ. Alla modeller tränades på olika datamängder, och resultat på samma datamängd jämfördes. Slutligen implementerades en algoritm som kombinerade utdatan av DeepDEA och DNABERT, vilket gav bättre resultat än modellerna individuellt. Resultaten visade att DeepSEA presterade något bättre än DNABert, med avseende på AUC ROC. Wilcoxon Signed-Rank Test visade att, även om de två modellerna fick liknande AUC ROC-poäng, så finns det en statistisk signifikans mellan fördelningen av deras förutsägelser. Det innebär att modellerna hanterar samma information på olika sätt och kan vara anledningen till a

Published

2021

43. Building a genomic variant based prediction model for lung cancer toxicity

Author

Janvid, Vincent and Janvid, Vincent

Abstract

Since the completion of the the Human genome project in 2003, the evident complexity of our genome and its regulation has only grown. The idea that having sequenced the human genome would solve this mystery was quickly discarded. With the decreasing costs of DNA sequencing, a plethora of new methods have evolved to further understand the role of non-coding regions of our genome, which makes up 98% its length. Genetic variations in these regions are therefore abundant in the human population, but their e ects are hard to characterize. Many non-coding variants have been linked to complex diseases such as cancer predisposition. This thesis aims to investigate the potential e ects of non-coding variants on drug toxicity, that is, how severe the adverse e ects of a drug are to the treated patients. More specifically it will study the effects of two cancer drugs, Gemcitabine and Carboplatin, on a set of 96 patients with lung cancer. To do this we use spatial data acquired by the promoter-targeting method HiCap as well as expression data obtained from blood cell lines. Using the variants obtained through whole genome sequencing of the patients, a supervised learning approach was attempted to predict the final toxicity experienced by the patients. The large number of variants present among the comparably few patients resulted in poor accuracy. The conclusion was drawn that the resolution of HiCap is too low compared to the density of variants in the non-coding regions. Additional data, such as transcription factor Chip-Seq data, and transcription factor motifs are needed to locate potentially contributing variants within the interactions., Sedan den första sekvenseringen av det mänskliga genomet 2003 har vår bild av vårt genom och hur det regleras bara blivit mer komplex. Iden om att ha tillgång till ett helt genom skulle losa detta mysterium förkastades snabbt. Med de sjunkande kostnaderna for sekvensering har ett brett utbud av nya metoder utvecklats for att bättre förstå de icke-kodande regionernas roll i v art genom. Då dessa regioner utgör98% av vårt DNA ar innehåller de stor variation bland det mänskliga släktet, men att förutsaga deras effekt är mycket svårt. Många icke-kodande variationer har kopplats till komplexa sjukdomar så som ökad risk för cancer.Denna uppsats syftar till att undersoka de potentiella effekterna av icke-kodande varianter på hur allvarliga biverkningar en patient får av en cancerbehandling. Närmare undersöks två mediciners, Gemcitabins och Carboplatins effekt på 96 lungcancerpatienter. För detta används spatial data samt genuttrycksdata från blodcellinjer.Med utgångspunkt från genetiska varianter bland patienternas sekvenserade genom testades övervakad inlärning för att förutsäga graden av biverkningar hos patienterna. Den stora mängden varianter som bärs av de förhållandevis få patienterna resulterade i låg träffsäkerhet hos prediktorn. Slutsatsen drogs att upplösningen av HiCap är för låg i jämförelse med den höga densiteten av varianter i icke-kodanderegioner. Mer data, så som Chip-Seq data från transkriptionsfaktorer samt deras specifika bindningsekvenser behövs för att lokalisera varianter inom en interaktion, som potentiellt skulle kunna påverka biverkningarna.

Published

2021

44. Genomic and phenotypic improvement of triticale (×Triticosecale Wittmack) line and hybrid breeding programs

Author

Trini, Johannes Philipp and Trini, Johannes Philipp

Abstract

Triticale (×Triticosecale Wittmack) breeding is a success story as it evolved to a serious alternative in farmer’s crop rotations since the 1970s and is grown globally on around 4 million hectares today. New developments, however, pointed out additional possibilities to improve triticale line and hybrid breeding programs increasing its future competitiveness and were evaluated in this study. In more detail, these were to (i) examine the genetic control and evaluate long term genetic trends of plant height in Central European winter triticale, (ii) evaluate the potential of triticale hybrid breeding and hybrid prediction approaches in triticale with a focus on biomass yield, (iii) introduce and examine a concept bypassing the time and resource consuming evaluation of female candidate lines in cytoplasmatic male sterility (CMS) based hybrid breeding, and (iv) to draw conclusions for the future improvement of triticale line and hybrid breeding programs. The genome wide association study detected markers significantly associated with plant height and developmental stage, respectively. These explained 42,16% and 29,31% of the total genotypic variance of plant height and development stage and are probably related to four and three quantitative trait loci (QTL), respectively. The two major QTL detected for plant height were located on chromosomes 5A and 5R which most likely could be assigned to the known height reducing genes Rht12 from wheat and Ddw1 from rye. The third major QTL detected located on chromosome 4B could not be assigned to a known height reducing gene and it cannot be precluded, that these significantly associated markers are identifying one and the same QTL as the markers located on chromosome 5R, as these showed a high linkage disequilibrium amongst each other. Evaluating the 129 registered cultivars showed that plant height decreased since the 1980’s. Evaluating their genetic constitution revealed that most cultivars carried at least one height reducing, Die Züchtung von Triticale (×Triticosecale Wittmack) ist eine Erfolgsgeschichte, da sie sich seit den 1970er Jahren zu einer ernstzunehmenden Alternative in der Fruchtfolge von Landwirten entwickelt hat und heute weltweit auf rund 4 Millionen Hektar angebaut wird. Jüngere Entwicklungen jedoch identifizierten zusätzliches Potential zur Verbesserung von Triticale Linien und Hybridzüchtungsprogrammen, die die Konkurrenzfähigkeit von Triticale weiter erhöhen können und wurden deshalb in dieser Studie näher beleuchtet. Genauer betrachtet waren die Ziele dieser Studie (i) die genetische Struktur und genetischen Langzeittrends des Merkmals Wuchshöhe in Mitteleuropäischer Wintertriticale zu untersuchen, (ii) die Potenziale der Hybridzüchtung und Konzepte zur Hybridvorhersage in Triticale, mit dem Fokus auf Biomasseertrag, zu evaluieren, (iii) ein Konzept, welches die zeit und ressourcenintensive Beurteilung weiblicher Mutterkomponenten in der zytoplasmatisch männlich sterilen (CMS) Hybridzüchtung vereinfacht, vorzustellen sowie bezüglich seiner Zweckdienlichkeit zu bewerten, und (iv) um Rückschlüsse für die zukünftige Verbesserung von Triticale Linien und Hybridzuchtprogrammen zu ziehen. In einer genomweiten Assoziationsstudie wurden Marker entdeckt, die signifikant mit den Merkmalen Wuchshöhe und Entwicklungsstadium assoziiert waren. Diese erklärten 42,16% beziehungsweise 29,31% der Gesamtvarianz der genannten Merkmale und repräsentieren wahrscheinlich vier beziehungsweise drei merkmalsbeeinflussende Genorte (QTL). Es wurden zwei bedeutende QTL für das Merkmal Wuchshöhe auf den Chromosomen 5A und 5R entdeckt, welche höchstwahrscheinlich den Wuchshöhe reduzierenden Genen Rht12 von Weizen und Ddw1 von Roggen zuzuschreiben sind. Das dritte bedeutende QTL, welches auf Chromosom 4B gefunden wurde, konnte keinem bekannten Wuchshöhe reduzierenden Gen zugeordnet werden. Ferner kann nicht ausgeschlossen werden, dass diese als signifikant identifizierten Marker ein und dasselbe QTL

Published

2021

45. An Overview of the Use of Genotyping Techniques for Assessing Genetic Diversity in Local Farm Animal Breeds

Author

Anna Olschewsky and Dirk Hinrichs

Subjects

local farm animal breeds, Nutztiere, Veterinary medicine, Tierzucht, conservation, genomic techniques, Review, genetic diversity, Technik, Konservierung, Genomik, QL1-991, Biodiversität, SF600-1100, Zoology, human activities

Abstract

Simple Summary The number of local farm animal breeds is declining worldwide. However, these breeds have different degrees of genetic diversity. Measuring genetic diversity is important for the development of conservation strategies and, therefore, various genomic analysis techniques are available. The aim of the present work was to shed light on the use of these techniques in diversity studies of local breeds. In summary, a total of 133 worldwide studies that examined genetic diversity in local cattle, sheep, goat, chicken and pig breeds were reviewed. The results show that over time, almost all available genomic techniques were used and various diversity parameters were calculated. Therefore, the present results provide a comprehensive overview of the application of these techniques in the field of local breeds. This can provide helpful insights into the advancement of the conservation of breeds with high genetic diversity. Abstract Globally, many local farm animal breeds are threatened with extinction. However, these breeds contribute to the high amount of genetic diversity required to combat unforeseen future challenges of livestock production systems. To assess genetic diversity, various genotyping techniques have been developed. Based on the respective genomic information, different parameters, e.g., heterozygosity, allele frequencies and inbreeding coefficient, can be measured in order to reveal genetic diversity between and within breeds. The aim of the present work was to shed light on the use of genotyping techniques in the field of local farm animal breeds. Therefore, a total of 133 studies across the world that examined genetic diversity in local cattle, sheep, goat, chicken and pig breeds were reviewed. The results show that diversity of cattle was most often investigated with microsatellite use as the main technique. Furthermore, a large variety of diversity parameters that were calculated with different programs were identified. For 15% of the included studies, the used genotypes are publicly available, and, in 6%, phenotypes were recorded. In conclusion, the present results provide a comprehensive overview of the application of genotyping techniques in the field of local breeds. This can provide helpful insights to advance the conservation of breeds.

Published

2021

46. Public Health in Germany: a new “Golden Age”?

Author

Razum, Oliver and Bozorgmehr, Kayvan

Abstract

Copyright of Public Health Forum is the property of De Gruyter and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2018

47. A cross-sectional overview of SARS-CoV-2 genome variations in Turkey

Author

Mücahit Kaya, Yakut Akyön, Koray Ergünay, Muhittin Serdar, Engin Yilmaz, and Acibadem University Dspace

Subjects

Gynecology, 2019-20 coronavirus outbreak, medicine.medical_specialty, Turkey, Coronavirus disease 2019 (COVID-19), SARS-CoV-2, Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), Biochemistry (medical), Clinical Biochemistry, COVID-19, Biology, Clinical disease, Biochemistry, Genome, variant, medicine, Local disease, mutation, genome, Molecular Biology, GenoMik

Abstract

We assessed SARS-CoV-2 genome diversity and probable impact on epidemiology, immune response and clinical disease in Turkey.Complete genomes and partial Spike (S) sequences were accessed from the Global Initiative on Sharing Avian Influenza Data (GISAID) database. The genomes were analysed for variations and recombinations using appropriate softwares.Four hundred ten complete genomes and 206 S region sequences were included. Overall, 1,200 distinct nucleotide variations were noted. Mean variation count was 14.2 per genome and increased significantly during the course of the pandemic. The most frequent variations were identified as A23403G (D614G;92.9,%), C14408T (P323L, 92.2%), C3037T (89.8%), C241T (83.4%) and GGG28881AAC (RG203KR, 62.6%). The A23403G mutation was the most frequent variation in the S region sequences (99%). Most genomes (98.3%) belonged in the SARS-CoV-2 haplogroup A. No evidence for recombination was identified in genomes representing sub-haplogroup branches. The variants B.1.1.7, B.1.351 and P.1 were detected, with a statistically-significant time-associated increase in B.1.1.7 prevalence.We described prominent SARS-CoV-2 variations as well as comparisons with global virus diversity. Continuing a molecular surveillance in agreement with local disease epidemiology appears to be crucial, as vaccination and mitigation efforts are ongoing. (English) [ABSTRACT FROM AUTHOR] Turkiye kaynakli SARS-CoV-2 genomik dizi cesitliliginin ve epidemiyoloji, bagisik yanit ve hastalik seyri uzerine muhtemel etkili varyasyonlarin incelenmesi.“Global Initiative on Sharing Avian Influenza Data” (GISAID) veri tabaninda yer alan tum genom ve “Spike” (S) bolgesine ait verilere ulasilarak uygun yazilimlar yardimiyla varyasyon ve muhtemel rekombinasyonlar arastirildi.Toplam 410 tam genom ve 206 S bolgesi dizisi incelendi, 1200 farkli nukleotid duzeyinde varyasyon saptandi. Genom basina toplam varyasyon ortalamasi 14.2 olarak hesaplandi ve salginin ilerleyisi suresince istatistiksel olarak anlamli artis izlendi. En sik saptanan varyasyonlar A23403G (D614G;92.9,%), C14408T (P323L, 92.2%), C3037T (89.8%), C241T (83.4%) ve GGG28881AAC (RG203KR, 62.6%) olarak siralandi. S bolgesi dizilerinde de A23403G, en yaygin varyasyon (%99) seklinde izlendi. Incelenen genomlarin siklikla (%98.3) SARS-CoV-2 A haplogrubuna ait oldugu goruldu. Alt haplogruplari temsil eden genomlarda yapilan incelemelerde rekombinasyon bulgusu saptanmadi. Calisma grubunda B.1.1.7, B.1.351 ve P.1 varyantlari tespit edildi. B.1.1.7 prevalansinda izlenen zamanla iliskili artis, istatistiksel olarak anlamli bulundu.Calismada ulkemiz kaynakli SARS-CoV-2 genomlarinda belli basli varyasyonlar belirlenmis ve kuresel virus cesitliligi isiginda degerlendirilmistir. Kontrol ve asilama calismalari ile eszamanli olarak onemli varyantlarin tanimlanabilmesi icin, bolgesel epidemiyoloji ile uyumlu molekuler surveyans calismalari surdurulmelidir. (Turkish) [ABSTRACT FROM AUTHOR] Copyright of Turkish Journal of Biochemistry / Turk Biyokimya Dergisi is the property of De Gruyter and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2021

48. Taxonomie im Wandel.

Author

Raupach, Michael J. and Knebelsberger, Thomas

Abstract

Taxonomy in change Taxonomy is currently experiencing profound changes. Molecular methods as DNA barcoding have become inherent parts of modern taxonomic research. The uprising application of high-throughput technologies will help us to assess species diversity faster and to understand the characteristics of an organism more in detail. As consequence, a modern taxonomic science with integrative character is emerging. Furthermore, the beginning digitalization and cross-linking of taxonomic data will pave the way of an upcoming dynamic cybertaxonomy. [ABSTRACT FROM AUTHOR]

Published

2015

49. Individualisierte, personalisierte, stratifizierte Medizin: eine Herausforderung für die Allergologie in der HNO?

Author

Chaker, Adam and Klimek, L.

Abstract

Copyright of HNO is the property of Springer Nature and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2015

50. Translational Genomics for Rare Disease

Author

Robinson, Peter

Subjects

Phenopacket, Genomic Health Care, Rare Disease, Global Alliance for Genomics and Health, Human Phenotype Ontology, Precision Medicine, Seltene Krankheit, Genomik

Abstract

Next-generation sequencing technologies have revolutionized our ability to assess genetic variation across the genome of patients in a variety of clinical contexts. However, interpreting the clinical relevance of variation is now the major bottleneck for implementation of genomic health care in rare disease, cancer, and precision medicine settings. Although terminologies exist to describe clinical data, standard formats for capturing clinical data about individuals have not existed, which hinders data exchange and limits the ability to perform analyses. The Human Phenotype Ontology was initially developed in 2008 to provide a standard ontology for the analysis of clinical phenotype data with a focus in medical genetics and rare disease (RD). It has grown to become the de facto international standard for RD phenotype analysis. The emerging Phenopacket standard of the Global Alliance for Genomics and Health provides a structural for capturing and computing over detailed descriptions of individual patients and is being developed to enable standardized phenotypic data exchange in medical and scientific settings., Sequenzierungstechnologien der nächsten Generation verändern grundlegend unsere Fähigkeit, genetische Variationen im gesamten Patientengenom in einer Vielzahl von klinischen Kontexten zu erkennen. Die Interpretation der klinischen Relevanz von Variationen ist heute der größte Engpassfaktor in der Einführung der genomischen Gesundheitsversorgung bei seltenen Erkrankungen, Krebs und der Präzisionsmedizin. Obwohl es Terminologien zur Beschreibung klinischer Daten gibt, existierte bisher keine Standardisierung bei der Erfassung klinischer Daten über einzelne Patienten. Dadurch wird der Datenaustausch erschwert und die Durchführung von Analysen einschränkt. Die Human Phenotype Ontology wurde 2008 entwickelt, um eine Standardontologie für die Analyse von klinischen Phänotypdaten mit Fokus auf medizinische Genetik und seltene Erkrankungen (SE) bereitzustellen. Sie hat sich zum internationalen De-facto-Standard für die Phänotypanalyse von SE entwickelt. Der im Entstehen begriffene Phenopacket-Standard der Global Alliance for Genomics and Health bietet ein Gerüst für die Erfassung und Berechnung überdetaillierter Beschreibungen einzelner Patienten und wird weiterentwickelt, um einen standardisierten phänotypischen Datenaustausch im medizinischen und wissenschaftlichen Bereich zu ermöglichen., Mission – Innovation: Telematics, eHealth and High-Definition Medicine in Patient-Centered Acute Medicine, p. 139

Published

2021