Your search keyword '"specific markers"' showing total 29 results

1. PREDICTION OF SEASONAL ALLERGIC DISEASES IN CHILDREN USING SPECIFIC MARKERS.

Author

Paul, Anish George, Ali, Moid Mir Siddiq, Abhishek M. P., Das, Gita, Syed, Afroz Kalmee, and Tiwari, Rahul

Subjects

*ALLERGIES, *JUVENILE diseases, *SEASONAL variations of diseases, *ALLERGIC rhinitis, *ENZYME-linked immunosorbent assay, *RECEIVER operating characteristic curves

Abstract

Background: Seasonal allergic diseases, such as allergic rhinitis and allergic asthma, are common pediatric health issues with increasing prevalence globally. Early identification of children at risk of developing these conditions is crucial for timely intervention and improved outcomes. Objective: This clinical study aimed to investigate the utility of specific biomarkers in predicting seasonal allergic diseases in children. Methods: A total of 250 pediatric patients presenting with symptoms suggestive of seasonal allergies were enrolled in this prospective study. Demographic and clinical data were collected, and skin prick tests (SPTs) were performed to identify allergen sensitization. Serum levels of [Marker 1], [Marker 2], and [Marker 3] were measured using enzyme-linked immunosorbent assay (ELISA) kits. Statistical analysis was conducted to evaluate the predictive value of these biomarkers in identifying children at risk of developing seasonal allergic diseases. Results: Analysis revealed a significant association between elevated levels of [Marker 1] and the presence of seasonal allergic diseases (p < 0.05). Similarly, [Marker 2] levels were significantly higher in children with allergic diseases compared to non-allergic controls (p < 0.001). Serum IgE levels ([Marker 3]) were also elevated in cases compared to controls, although the difference was less pronounced (p = 0.023). Receiver operating characteristic (ROC) curve analysis demonstrated the diagnostic accuracy of each biomarker, with [Marker 1] exhibiting the highest sensitivity and specificity. Conclusion: Specific biomarkers, particularly [Marker 1] and [Marker 2], show promise in predicting seasonal allergic diseases in children. Early identification of at-risk individuals using biomarker-based approaches could enable targeted interventions and personalized management strategies, thereby reducing the burden of allergic diseases on pediatric populations. [ABSTRACT FROM AUTHOR]

Published

2024

2. Identification of specific markers for human pluripotent stem cell‐derived small extracellular vesicles.

Author

Chen, Zhengsheng, Luo, Lei, Ye, Teng, Zhou, Jiacheng, Niu, Xin, Yuan, Ji, Yuan, Ting, Fu, Dehao, Li, Haiyan, Li, Qing, and Wang, Yang

Subjects

*EXTRACELLULAR vesicles, *LIQUID chromatography-mass spectrometry, *INDUCED pluripotent stem cells, *EMBRYONIC stem cells, *WESTERN immunoblotting, *CELL surface antigens

Abstract

Pluripotent stem cell‐derived small extracellular vesicles (PSC‐sEVs) have demonstrated great clinical translational potential in multiple aging‐related degenerative diseases. Characterizing the PSC‐sEVs is crucial for their clinical applications. However, the specific marker pattern of PSC‐sEVs remains unknown. Here, the sEVs derived from two typical types of PSCs including induced pluripotent stem cells (iPSC‐sEVs) and embryonic stem cells (ESC‐sEVs) were analysed using proteomic analysis by liquid chromatography with tandem mass spectrometry (LC‐MS/MS), and surface marker phenotyping analysis by nanoparticle flow cytometry (NanoFCM). A group of pluripotency‐related proteins were found to be enriched in PSC‐sEVs by LC‐MS/MS and then validated by Western Blot analysis. To investigate whether these proteins were specifically expressed in PSC‐sEVs, sEVs derived from seven types of non‐PSCs (non‐PSC‐sEVs) were adopted for analysis. The results showed that PODXL, OCT4, Dnmt3a, and LIN28A were specifically enriched in PSC‐sEVs but not in non‐PSC‐sEVs. Then, commonly used surface antigens for PSC identification (SSEA4, Tra‐1‐60 and Tra‐1‐81) and PODXL were gauged at single‐particle resolution by NanoFCM for surface marker identification. The results showed that the positive rates of PODXL (>50%) and SSEA4 (>70%) in PSC‐sEVs were much higher than those in non‐PSC‐sEVs (<10%). These results were further verified with samples purified by density gradient ultracentrifugation. Taken together, this study for the first time identified a cohort of specific markers for PSC‐sEVs, among which PODXL, OCT4, Dnmt3a and LIN28A can be detected with Western Blot analysis, and PODXL and SSEA4 can be detected with NanoFCM analysis. The application of these specific markers for PSC‐sEVs identification may advance the clinical translation of PSCs‐sEVs. [ABSTRACT FROM AUTHOR]

Published

2024

3. The diagnostic challenges of functioning neuroendocrine tumors: balancing accuracy, availability, and personalized care.

Author

Massironi, Sara

Subjects

NEUROENDOCRINE tumors, GALLSTONES, MEDICAL education, PROGNOSIS, SYMPTOMS, DELAYED diagnosis, SOMATOSTATIN receptors

Abstract

Functioning neuroendocrine neoplasms (NENs) are a complex group of tumors that pose diagnostic challenges due to their ability to intertwine endocrine and oncological aspects. The distinction between functioning and nonfunctioning NENs is crucial for treatment decisions and personalized patient care. However, there is limited recognition and knowledge of the various syndromes associated with functioning NENs, leading to underdiagnosis and misidentification. The evaluation of specific circulating markers is essential for accurate diagnosis and effective management, but their availability is limited, leading to delayed diagnoses and compromised patient care. Addressing these challenges requires improving medical education, centralizing hormone level measurements, and exploring new diagnostic techniques. [Extracted from the article]

Published

2024

4. Identification of specific markers for human pluripotent stem cell‐derived small extracellular vesicles

Author

Zhengsheng Chen, Lei Luo, Teng Ye, Jiacheng Zhou, Xin Niu, Ji Yuan, Ting Yuan, Dehao Fu, Haiyan Li, Qing Li, and Yang Wang

Subjects

pluripotent stem cells, single‐particle resolution, small extracellular vesicles, specific markers, Cytology, QH573-671

Abstract

Abstract Pluripotent stem cell‐derived small extracellular vesicles (PSC‐sEVs) have demonstrated great clinical translational potential in multiple aging‐related degenerative diseases. Characterizing the PSC‐sEVs is crucial for their clinical applications. However, the specific marker pattern of PSC‐sEVs remains unknown. Here, the sEVs derived from two typical types of PSCs including induced pluripotent stem cells (iPSC‐sEVs) and embryonic stem cells (ESC‐sEVs) were analysed using proteomic analysis by liquid chromatography with tandem mass spectrometry (LC‐MS/MS), and surface marker phenotyping analysis by nanoparticle flow cytometry (NanoFCM). A group of pluripotency‐related proteins were found to be enriched in PSC‐sEVs by LC‐MS/MS and then validated by Western Blot analysis. To investigate whether these proteins were specifically expressed in PSC‐sEVs, sEVs derived from seven types of non‐PSCs (non‐PSC‐sEVs) were adopted for analysis. The results showed that PODXL, OCT4, Dnmt3a, and LIN28A were specifically enriched in PSC‐sEVs but not in non‐PSC‐sEVs. Then, commonly used surface antigens for PSC identification (SSEA4, Tra‐1‐60 and Tra‐1‐81) and PODXL were gauged at single‐particle resolution by NanoFCM for surface marker identification. The results showed that the positive rates of PODXL (>50%) and SSEA4 (>70%) in PSC‐sEVs were much higher than those in non‐PSC‐sEVs (

Published

2024

5. Genetic Diversity Analysis of Guangxi Kumquat (Fortunella Swing) Germplasm Using SRAP Markers.

Author

Liu, Binghao, Ding, Ping, Ye, Rongchun, Li, Yi, Ou, Shanhan, Gentile, Alessandra, Ma, Xianfeng, and Deng, Ziniu

Subjects

GERMPLASM, GENETIC variation, CULTIVARS, HIERARCHICAL clustering (Cluster analysis), CLUSTER analysis (Statistics), GENETIC markers in plants

Abstract

In order to understand the genetic diversity of germplasm resources of kumquats in Guangxi, 14 kumquat germplasm resources in Guangxi and 12 accessions from other provinces were analyzed by using SRAP markers. In total, 19 primer pairs with high stability, good reproducibility, and high polymorphism were chosen for analysis of all 26 kumquat genotypes. Among the 104 amplified bands, 90 (86.54%) were polymorphic. SRAP markers were analyzed by employing Principal Coordinate Analysis, Population Structure Analysis, and Hierarchical Cluster Analysis (UPGMA). The classification results showed that the 26 kumquat germplasm resources could be divided into 5 groups, including cultivated kumquat, intergeneric hybrid, wild kumquat from other provinces, wild kumquat, and hybrid kumquat from Guangxi. The Guangxi kumquat germplasm had high genetic diversity, and were clearly divided into three groups: cultivated kumquat, wild kumquat, and hybrid kumquat. Additionally, the eight cultivated kumquat varieties in Guangxi were further divided into two subgroups. Wild kumquat in Guangxi or in other provinces belonged to different groups; meanwhile, the Guangxi kumquat hybrid formed an independent group, thus indicating that Guangxi wild kumquat and hybrid kumquat possess certain specificity, or they possibly belong to different species. Among the tested 26 kumquat accessions, 23 unique genotype-specific SRAP markers were detected for 14 kumquat genotypes, which were positively identified. For the remaining 12 accessions without genotype-specific markers, they were distinguished by various combinations of markers. These results may have certain importance for kumquat genetic research and cultivar selection. [ABSTRACT FROM AUTHOR]

Published

2023

6. Construction of Prediction Model for Atrial Fibrillation with Valvular Heart Disease Based on Machine Learning.

Author

Qiaoqiao Li, Shenghong Lei, Xueshan Luo, Jintao He, Yuan Fang, Hui Yang, Yang Liu, Chun-Yu Deng, Shulin Wu, Yu-Mei Xue, and Fang Rao

Abstract

Background: Valvular heart disease (VHD) is a major precipitating factor of atrial fibrillation (AF) that contributes to decreased cardiac function, heart failure, and stroke. Stroke induced by VHD combined with atrial fibrillation (AF-VHD) is a much more serious condition in comparison to VHD alone. The aim of this study was to explore the molecular mechanism governing VHD progression and to provide candidate treatment targets for AF-VHD. Methods: Four public mRNA microarray datasets were downloaded and differentially expressed genes (DEGs) screening was performed. Weighted gene correlation network analysis was carried out to detect key modules and explore their relationships and disease status. Candidate hub signature genes were then screened within the key module using machine learning methods. The receiver operating characteristic curve and nomogram model analysis were used to determine the potential clinical significance of the hub genes. Subsequently, target gene protein levels in independent human atrial tissue samples were detected using western blotting. Specific expression analysis of the hub genes in the tissue and cell samples was performed using single-cell sequencing analysis in the Human Protein Atlas tool. Results: A total of 819 common DEGs in combined datasets were screened. Fourteen modules were identified using the cut tree dynamic function. The cyan and purple modules were considered the most clinically significant for AF-VHD. Then, 25 hub genes in the cyan and purple modules were selected for further analysis. The pathways related to dilated cardiomyopathy, hypertrophic cardiomyopathy, and heart contraction were concentrated in the purple and cyan modules of the AF-VHD. Genes of importance (CSRP3, MCOLN3, SLC25A5, and FIBP) were then identified based on machine learning. Of these, CSRP3 had a potential clinical significance and was specifically expressed in the heart tissue. Conclusions: The identified genes may play critical roles in the pathophysiological process of AF-VHD, providing new insights into VHD development to AF and helping to determine potential biomarkers and therapeutic targets for treating AF-VHD. [ABSTRACT FROM AUTHOR]

Published

2022

7. Genetic Diversity Analysis of Guangxi Kumquat (Fortunella Swing) Germplasm Using SRAP Markers

Author

Binghao Liu, Ping Ding, Rongchun Ye, Yi Li, Shanhan Ou, Alessandra Gentile, Xianfeng Ma, and Ziniu Deng

Subjects

Fortunella spp., molecular marker, principal coordinate, population structure, hierarchical cluster, specific markers, Plant culture, SB1-1110

Abstract

In order to understand the genetic diversity of germplasm resources of kumquats in Guangxi, 14 kumquat germplasm resources in Guangxi and 12 accessions from other provinces were analyzed by using SRAP markers. In total, 19 primer pairs with high stability, good reproducibility, and high polymorphism were chosen for analysis of all 26 kumquat genotypes. Among the 104 amplified bands, 90 (86.54%) were polymorphic. SRAP markers were analyzed by employing Principal Coordinate Analysis, Population Structure Analysis, and Hierarchical Cluster Analysis (UPGMA). The classification results showed that the 26 kumquat germplasm resources could be divided into 5 groups, including cultivated kumquat, intergeneric hybrid, wild kumquat from other provinces, wild kumquat, and hybrid kumquat from Guangxi. The Guangxi kumquat germplasm had high genetic diversity, and were clearly divided into three groups: cultivated kumquat, wild kumquat, and hybrid kumquat. Additionally, the eight cultivated kumquat varieties in Guangxi were further divided into two subgroups. Wild kumquat in Guangxi or in other provinces belonged to different groups; meanwhile, the Guangxi kumquat hybrid formed an independent group, thus indicating that Guangxi wild kumquat and hybrid kumquat possess certain specificity, or they possibly belong to different species. Among the tested 26 kumquat accessions, 23 unique genotype-specific SRAP markers were detected for 14 kumquat genotypes, which were positively identified. For the remaining 12 accessions without genotype-specific markers, they were distinguished by various combinations of markers. These results may have certain importance for kumquat genetic research and cultivar selection.

Published

2023

8. The combination of hair follicle-specific marker LHX2 and co-expressed marker can distinguish between sweat gland placodes and hair placodes in rat.

Author

Cao, Manxiu, Zhao, Junhong, Du, Lijie, Chen, Zixiu, Zhang, Lei, Liu, Xiang, Cheng, Jiaqi, Yan, Yongjing, Zhang, Cuiping, and Li, Haihong

Abstract

Eccrine sweat gland (ESG) and hair follicle (HF) are different skin appendages but share many common development characteristics. Although the morphology of adult ESG and HF is obviously different, it is difficult to distinguish ESG placodes from HFs placodes morphologically. To study the fate determination of ESG and HF, specific antigen markers for ESG placodes and HF placodes must be found first to distinguish them. In the study, we detected the expression of commonly used keratins 4, 5, 7–10, 12, 14, 15, 17–20, 27 and 73, and the reported ESG and HF specific markers, P-cadherin, Lymphoid enhancer factor 1 (LEF1), LIM Homeobox gene 2 (LHX2), Na+/K+-ATPase (NKA) and Na+-K+-2Cl− cotransporter 1 (NKCC1) in ESG and HF placodes by single-immunofluorescence staining and double-immunofluorescence staining. To further verify the results of immunofluorescence staining, Western blot (WB) was used to detect the differential antigen and some co-expressed antigens of ESG and HF placodes. The results showed that both ESG and HF placodes expressed K4/5/14/1517/18, P-cadherin and LEF1, neither expressed K7/8/9/10/12/19/20/27/73, NKA or NKCC1. HF placodes specifically expressed LHX2. Combination of LHX2 and co-expressed antigen K14, can distinguish ESG placodes from HF placodes. We conclude that LHX2 is a specific marker for HF placodes, and ESG placodes and HF placodes can be distinguished by double immunofluorescence staining of the specific marker LHX2 and the co-expressed markers, such as K4, K5, K14, K15, K17, K18, P-cadherin and LEF1. [ABSTRACT FROM AUTHOR]

Published

2021

9. 哲罗鲑性别特异性标记筛选.

Author

佟广香, 唐国盘, 徐 伟, 张永泉, 尹家胜, and 匡友谊

Abstract

Copyright of Journal of Hydrobiology is the property of Editorial Department of Journal of Hydrobiology 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

10. Genetic Diversity Analysis of Guangxi Kumquat (Fortunella Swing) Germplasm Using SRAP Markers

Author

Deng, Binghao Liu, Ping Ding, Rongchun Ye, Yi Li, Shanhan Ou, Alessandra Gentile, Xianfeng Ma, and Ziniu

Subjects

Fortunella spp, molecular marker, principal coordinate, population structure, hierarchical cluster, specific markers

Abstract

In order to understand the genetic diversity of germplasm resources of kumquats in Guangxi, 14 kumquat germplasm resources in Guangxi and 12 accessions from other provinces were analyzed by using SRAP markers. In total, 19 primer pairs with high stability, good reproducibility, and high polymorphism were chosen for analysis of all 26 kumquat genotypes. Among the 104 amplified bands, 90 (86.54%) were polymorphic. SRAP markers were analyzed by employing Principal Coordinate Analysis, Population Structure Analysis, and Hierarchical Cluster Analysis (UPGMA). The classification results showed that the 26 kumquat germplasm resources could be divided into 5 groups, including cultivated kumquat, intergeneric hybrid, wild kumquat from other provinces, wild kumquat, and hybrid kumquat from Guangxi. The Guangxi kumquat germplasm had high genetic diversity, and were clearly divided into three groups: cultivated kumquat, wild kumquat, and hybrid kumquat. Additionally, the eight cultivated kumquat varieties in Guangxi were further divided into two subgroups. Wild kumquat in Guangxi or in other provinces belonged to different groups; meanwhile, the Guangxi kumquat hybrid formed an independent group, thus indicating that Guangxi wild kumquat and hybrid kumquat possess certain specificity, or they possibly belong to different species. Among the tested 26 kumquat accessions, 23 unique genotype-specific SRAP markers were detected for 14 kumquat genotypes, which were positively identified. For the remaining 12 accessions without genotype-specific markers, they were distinguished by various combinations of markers. These results may have certain importance for kumquat genetic research and cultivar selection.

Published

2023

11. Identification of Genetic and Protein Markers in Salmonella enterica serovar Typhimurium by Bioinformatic Analyses for the Purpose of Diagnosis and Treatment

Author

Mojdeh Amandadi, Hadi Ravan, and Mehdi Hassanshahian

Subjects

Salmonella typhimurium, Specific markers, Protein structure modeling, Microbiology, QR1-502

Abstract

Background and Aims: Salmonella enterica serovar Typhimurium is one of the common causes of food poisoning in human. Since the selection of appropriate markers is one of the main challenges for the detection of this pathogen, in the current study, genetic markers of this serovar were screened using bioinformatical tools. In the second phase, structure and function of proteins encoded by these markers, were determined. Materials and Methods: This study was conducted between 2016 and 2017. In order to find the genetic markers of Salmonella enterica serovar Typhimurium, 45 complete genomes belonging to Salmonella enterica serovar Typhimurium and the other genera of Enterobacteriacea family were compared using Mauve software. To determine the structure and function of proteins encoded by these sequences, I-TASSER and Phyre2 software beside CDD, Inter Pro Scan, DALI, and Pro Func databases were used for structural and functional modeling, respectively. Results: Special regions of STM4491-STM4496 genes were determined as specific markers for Salmonella enterica serovar Typhimurium. The function of proteins encoded by these markers were proposed to be classified in five groups, including Lon protease, nucleotide binding proteins, nucleotide three phosphatases (NTP), proteins involved in the DNA repair , and DNA methylase. Conclusions: Specific regions of STM4491-STM4496 genes can be used as effective diagnostic targets for the detection of pathogenic Salmonella enterica serovar Typhimurium. Moreover, proteins encoded by these genes can be suggested as suitable targets for the design of new therapeutic agents to prevent and treat the infections caused by this pathogen.

Published

2017

12. Inter Simple Sequence Repeat (ISSR) markers for identification of germplasm and diversity analysis in coconut (Cocos nucifera L.)

Author

Manimekalai, R.

Published

2012

13. Oxidation products of α- and β-amyrins: potential tracers of abiotic degradation of vascular-plant organic matter in aquatic environments.

Author

Galeron, M.-A., Vaultier, F., and Rontani, J.-F.

Subjects

CARBON content of water, ABIOTIC environment, PHOTOOXIDATION

Abstract

In order to fulfil the current need for stable and specific tracers to monitor vascular-plant organic matter degradation in aquatic environments, α-amyrin (urs-12-en-3β-ol) and βamyrin (olean-12-en-3βol) were oxidised in vitro and their abiotic degradation products quantified in environmental samples from the Rhône River in France. Although they appear inert to photooxidation, they are clearly affected by autoxidation and the tracer potential of the resulting products was confirmed. Autoxidation of α- and βamyrins produces urs or olean-12-en-3-one, 3βhydroxy-urs or olean-12-en-11-one, urs or olean-12-en-3b,11α-diol and urs or olean-12-en-3,11-dione. 3βHydroxy-urs-12-en-11-one and 3βhydroxy-olean-12-en-11-one, the main oxidation products detected, were selected as autoxidation tracers. These compounds, specific to autoxidation, were detected in dry leaves of Smilax aspera and in suspended particulate matter samples collected in the Rhône River and evidenced the importance of autoxidation in the degradation of organic matter of terrestrial origin. [ABSTRACT FROM AUTHOR]

Published

2016

14. Genetic Diversity of DxP Population Yield Component in Oil Palm's Paternal Half-sib Family based on Microsatellite Markers.

Author

Solin, Nida Wafiqah Nabila M., Sobir, and Toruan-Mathius, Nurita

Abstract

Abstract: Oil palm is a commodity that has potential to be transferred to biodiesel. This study is aimed to elucidate genetic diversity of four population based on yield component, using 27 microsatellites. Analysis of banding pattern resulted average polymorphic loci and PIC are 52.78% and 0.51. One, three, one and two markers specific to the group OB, BN, OY and FFB, respectively. Cluster analysis revealed level of genetic diversity and similarity at 0.56 and 0.78-0.98, which is succesfully separated the four population, as well as confirmed by PCoA, indicated that can be used to elucidate specific markers corresponding to populations used. [Copyright &y& Elsevier]

Published

2014

15. Specifinių žymenų identifikavimas šviežiapienių karvių ankstyvai subklinikinių acidozių diagnostikai

Author

Navalinskaitė, Ieva and Antanaitis, Ramūnas

Subjects

fluids and secretions, Cows, subacute ruminal acidosis, computerized herd management program, specific markers, early diagnosis, food and beverages

Abstract

Objective and tasks. The aim of this research was to identify specific markers that could be used in the early diagnosis of subclinical acidosis in fresh dairy cows. To accomplish this goal, the following tasks have been identified: to determine and evaluate changes in milk yield, electrical milk conductivity, milking time, milk composition (milk fat, protein and lactose content, ratio of fat to protein), somatic cell count, milk temperature, cow weight and rumination time as a diagnostical indicators of subclinical acidosis. Materials and methods. The study was implemented on dairy cattle farm X, which has 1100 dairy cows, including 700 cows which are milking on robots. Analogically (based on productivity, age, breed, etc.), 10 cows diagnosed with subclinical acidosis were selected from 60 fresh milk cows based on decreased ratio of fat to protein

Published

2020

16. Specifinių žymenų identifikavimas šviežiapienių karvių ankstyvai metritų diagnostikai

Author

Prokopavičiūtė, Žyginta and Antanaitis, Ramūnas

Subjects

cows, specific markers, metritis, early diagnosis, herd management system. [Keywords], food and beverages

Abstract

Research aim and objectives. The aim of our research was to evaluate an opportunity to use specific markers as indicators for early diagnosis of cow metritis. In order to achieve our goal there were some objects chosen: to detect and evaluate milk yield, milk electrical conductivity, milking duration, milk composition (milk fat and protein, fat/protein ratio, milk lactose, somatic cell count), milk temperature, duration of ruminating, body weight as specific indicators for early diagnosis of metritis. Materials and methods. According to the analogue principle (according to the age, breed, etc.), from 100 fresh cows in total the 20 fresh cows were sampled for research. Considering to data from previous lactation, cows were sampled for research having the same productivity status. Testing group consisted of 10 cows showing specific clinical signs of metritis. Clinical signs of cows with metritis: specific from fetid watery red – brown to purulent uterine discharge and fever. Control group consisted of 10 healthy cows by analogue principle. The data about milk yield, milk electrical conductivity, milking duration, milk temperature, milk fat and protein, fat/protein ratio, milk lactose, somatic cell count, duration of ruminating, body weight indicators were collected from herd management system named Lely T4C for both groups. All of indicators were chosen 1 – 7 days before appearance of clinical sings. Results and findings. 7 days before appearance of metritis indicators as milk yield, milk lactose and body weight were lower in group of sick cows than in group of healthy cows and milk conductivity was higher for sick cows than for healthy cows. Duration of ruminating was lowest at 4th day before detection of clinical signs in testing group comparing with control group. Fat, fat to protein ratio and somatic cell count were higher in group of sick cows than in group of healthy cows with the largest difference between both groups before 1 day until metritis. Protein levels were higher in sick cows than in healthy cows and differed most significantly second day before metritis. The greatest changes of indicators were found out 7 days and 1 day before detection of clinical disease. These days could be significant of using some indicators as specific markers for early diagnosis of metritis.

Published

2020

17. Determination of resistance genes against anthracnose disease (Ascochyta rabiei) and developing of specific markers

Author

Yanık, Burcu and Poyraz, İsmail

Subjects

Nohut, Chickpea, Özgül markörler, Specific Markers, NBS-LRR Direnç Genleri, Antraknoz Hastalığı, Anthracnose Disease, NBS-LRR Resistance Genes

Abstract

Anadolu Üniversitesi ve Bilecik Şeyh Edebali Üniversitesi tarafından ortak yürütülen program. Dünya üzerinde oluşan çevre sorunları, üretim azlığı, hayvansal ürünlerin maliyetli olması vb. durumlardan dolayı bitkisel kaynaklı protein ihtiyacı çoğalmıştır. Bu ihtiyacı karşılamak için, içerdiği protein, vitamin, mineral ve aminoasit miktarı fazla olması nedeniyle tane baklagillerin kuru taneleri kullanımı tercih edilmektedir. Nohut, Dünya’da fasulye, soya fasulyesi ve bezelyeden sonra en çok tercih edilen dördüncü en önemli tahıl baklagilidir. Nohut bitkisi, Ascochyta rabiei (Pass) Lab.'ın neden olduğu Ascochyta yanıklığına duyarlıdır. Bu en yıkıcı nohut hastalığıdır. Hastalık, bitkinin tüm hava kısımlarını etkiler, gövdeler, deriler, baklalar ve tohumlarda nekrotik lezyonlara neden olur. Patojen için uygun koşullar oluştuğunda %100 varan kayıplara neden olabilmektedir. Bu çalışmada, ilk aşamada NCBI (National Center for Biotechnology Information Search database) veri tabanı ve literatür araştırma verileri kullanılarak, antraknoz yanıklığına karşı tanımlanmış direnç genleri ve dizi bilgileri elde edilmiştir. NCBI-Genome Data Viewer ile intron içermediği teyit edilen dizi bilgileri, MEGA 10.1.8 programında ClustalW ile hizalanmış ve Maximum Parsimony yöntemiyle genlerin benzerlik dendrogramı çizilmiştir. Dendrogramda belirlenen gen gruplarının her biri kendi içine ayrı hizalanarak, her gruba özgül yüksek oranda korunmuş özgül belirteçler tasarlanmıştır. Tasarlanan markörler, Eskişehir Geçit Kuşağı tarımsal araştırma enstitüsünden elde edilen otuz sekiz çeşit ve melez nohuttan ticari kit ile izole edilen DNA örneklerinin kalıp olarak kullanıldığı PZR yöntemiyle test edilmiştir. Agaroz jelde PZR ürün büyüklüklerine göre direnç genlerinin varlık/yokluk analizi gerçekleştirilmiştir. Nohut örneklerinin tarladaki dayanıklılık durumları ile özgül belirteç verileri karşılaştırılmış ve antraknoz hastalığına karşı mücadelede dayanıklı bireylerin tespitine yönelik çalışmalarda kullanılabilirliği analiz edilmiştir. Environmental problems occurring in the world, lack of production, cost of animal products etc. Due to situations, the need for vegetable origin has increased. In order to meet this need, it is preferred to use dry grains of grain legumes due to the high amount of protein, vitamins, minerals and amino acids. Chickpeas are the fourth most preferred grain legumes in the world after beans, soybeans and peas. Chickpea is susceptible to ascochyta blight caused by Ascochyta rabiei (Pass) Lab. This is the most devastating chickpea disease. The disease affects all the air parts of the plant, causing necrotic lesions in stems, skins, broad beans and seeds. Fracture of stems and leaf stems is also an important symptom. In the area, infected plants are often seen as spots that reflect foci where the pathogen spreads. These spots are irregularly sized, ranging from light brown to blackish dark brown and are surrounded by the yellow circle. It can cause losses of up to 100% when favorable conditions occur for the pathogen. In order to spread the disease, it is sufficient to have a presence in the region raised. In our country, quite a lot of losses are given against Ascochyta rabiei pathogen. In our study, the localization of the sequences that may be resistant to anthracnose blight resistances genes (NBS-LRR gene family), and specific markers were designed using nucleotide sequences. Through the designed markers, the presence or absence of sequences that may be resistance genes in the genomes of the thirty-eight varieties / hybrid chickpeas obtained from the Eskişehir Crossing Agricultural Research Institute. As a result of the data we obtained, it is aimed to increase the studies on the use of beaten individuals in the fight against Chickpeas Anthracnose blight.

Published

2020

18. Construction of Prediction Model for Atrial Fibrillation with Valvular Heart Disease Based on Machine Learning.

Author

Li Q, Lei S, Luo X, He J, Fang Y, Yang H, Liu Y, Deng CY, Wu S, Xue YM, and Rao F

Abstract

Background: Valvular heart disease (VHD) is a major precipitating factor of atrial fibrillation (AF) that contributes to decreased cardiac function, heart failure, and stroke. Stroke induced by VHD combined with atrial fibrillation (AF-VHD) is a much more serious condition in comparison to VHD alone. The aim of this study was to explore the molecular mechanism governing VHD progression and to provide candidate treatment targets for AF-VHD., Methods: Four public mRNA microarray datasets were downloaded and differentially expressed genes (DEGs) screening was performed. Weighted gene correlation network analysis was carried out to detect key modules and explore their relationships and disease status. Candidate hub signature genes were then screened within the key module using machine learning methods. The receiver operating characteristic curve and nomogram model analysis were used to determine the potential clinical significance of the hub genes. Subsequently, target gene protein levels in independent human atrial tissue samples were detected using western blotting. Specific expression analysis of the hub genes in the tissue and cell samples was performed using single-cell sequencing analysis in the Human Protein Atlas tool., Results: A total of 819 common DEGs in combined datasets were screened. Fourteen modules were identified using the cut tree dynamic function. The cyan and purple modules were considered the most clinically significant for AF-VHD. Then, 25 hub genes in the cyan and purple modules were selected for further analysis. The pathways related to dilated cardiomyopathy, hypertrophic cardiomyopathy, and heart contraction were concentrated in the purple and cyan modules of the AF-VHD. Genes of importance ( CSRP3 , MCOLN3 , SLC25A5 , and FIBP ) were then identified based on machine learning. Of these, CSRP3 had a potential clinical significance and was specifically expressed in the heart tissue., Conclusions: The identified genes may play critical roles in the pathophysiological process of AF-VHD, providing new insights into VHD development to AF and helping to determine potential biomarkers and therapeutic targets for treating AF-VHD., Competing Interests: The authors declare no conflict of interest., (Copyright: © 2022 The Author(s). Published by IMR Press.)

Published

2022

19. RAPD markers for discriminating tea germplasms at the inter-specific level in China.

Author

Chen, L. and Yamaguchi, S.

Subjects

*TEA, *GENETIC markers, *PLANT germplasm, *CULTIVARS, *PLANT genetics

Abstract

For the discrimination of tea germplasms at the inter-specific level, four tea species and varieties ( Camellia sinensis, C. sinensis var. assamica, C. sinensis var. pubilimba, C. sinensis var. kucha) and their 20 wild allied species ( C. sp.) preserved in the China National Germplasm Tea Repositories (CNGTR) were investigated using randomly amplified polymorphic DNA (RAPD) markers. Fifteen primers were chosen from the 61 screened for RAPD amplification. The average DNA polymorphic frequency of RAPD primers at the inter-specific level was 0.30, varying from 0.16 to 0.60, lower than that at the intra-specific level. Using the presence, sometimes absence of unique RAPD markers, it was possible to discriminate 14 of the germplasms investigated. No single primer could discriminate all the 24 germplasms. However, OPO-13 provided rich band patterns and it could discriminate 10 genotypes. The combination of two and three primers made it possible to discriminate 15 and 21 germplasms, respectively. Furthermore, the combination of band patterns or the DNA fingerprinting based on specific RAPD markers generated by OPO-13, OPO-18, OPG-12 and OPA-13 allowed the discrimination of all 24 germplasms investigated. Therefore, RAPD markers also provide a powerful tool to differentiate tea germplasms at the inter-specific level. [ABSTRACT FROM AUTHOR]

Published

2005

20. Generation of microglia specific reagents from phage displayed peptide libraries

Author

Lundin, Karin, Aarum, Johan, Appelsved, Lena, Johansson-Borg, Anette, von Garrelts, Eva, Dypbukt, Jeannette, Sandberg, Kristian, and Persson, Mats A.A.

Subjects

*PEPTIDES, *MICROGLIA, *CELL culture, *CELL lines

Abstract

The present report concerns the generation of specific markers and the establishment of a selection procedure for microglia specific molecules from phage displayed peptide libraries. Negative selection against a mouse monocytic cell line (IC-21) and positive selection against primary mouse microglia was combined in the selection procedures using a mixture of two random peptide libraries displayed on phage. In a first set of experiments, one clone was selected that bound microglia and IC-21 cells to equal extent, and three clones that bound to unsorted primary microglia to substantially higher levels than to IC-21 cells. In the second series of experiments, microglia and IC-21 cells were mixed and CD45-positive microglia cells were collected using a FACS sorter. From the latter selection series, three clones were found that preferentially bound to microglia cells. The binding of one of the six selected microglia specific phage clones, clone V-1:19, was competed/inhibited in experiments using soluble synthetic peptides corresponding to the binding motif of the phage clone. The specific inhibition to microglia cells by this synthetic peptide was effective in the concentration range of 0.5–20 μM. The preferential binding of clone V-1:19 to microglia like cells was further demonstrated by staining a panel of cell lines and purified primary mouse microglia. [Copyright &y& Elsevier]

Published

2003

21. Cardiomyocyte senescence characterization and identification of associated markers

Author

Maggiorani, Damien, Institut des Maladies Métaboliques et Cardiovasculaires (I2MC), Université Toulouse III - Paul Sabatier (UT3), Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées-Institut National de la Santé et de la Recherche Médicale (INSERM), Université Paul Sabatier - Toulouse III, Jeanne Mialet-Perez, and STAR, ABES

Subjects

Cardiomyocytes, [SDV.SP.PHARMA] Life Sciences [q-bio]/Pharmaceutical sciences/Pharmacology, [SDV.SP.PHARMA]Life Sciences [q-bio]/Pharmaceutical sciences/Pharmacology, Cardiomyocyte, Telomere, Mitochondrie, Télomères, Sénescence, Senescence, Marqueurs spécifiques, Specific markers

Abstract

Ageing of the organism is associated with several chronic pathologies such as heart failure (HF). Recent studies have demonstrated the link between the accumulation of senescent cells during ageing and age-associated diseases. Cellular senescence, originally defined as a stable cell cycle arrest, acts as a tumorigenic repressor by limiting the proliferation of DNA damaged cells. Despite this protective effect, senescence is characterized by deep remodeling of cell biology which drives functional disorders, such as the acquisition of a senescence-associated secretory phenotype (SASP). Senescence can be induced by telomeric attrition and by exposition to cellular stress signals such as oxidative stress or irradiation, which induce telomeric damage, activation of the DNA Damage Response (DDR) and increased expression of antitumoral genes (p16INK4a, p21CIP1, p53). These genes are classically used as markers of senescence because their expression increases in several tissues during ageing but they are not tissue-specific. Therefore, At the cardiac level, ageing is characterized by cardiomyocytes hypertrophy, increased sensitivity to stress and highest risk of developing HF. Cardiomyocytes are post- mitotic cells and the senescence inductor mechanisms, specifics markers and their role in HF remains poorly understood. This thesis project is articulated around two aims, 1/ studying the role of telomeric damages and mitochondrial dysfunction in triggering cardiomyocyte senescence and 2/ identification of specifics markers. Fisrtly, we shown that aged cardiomyocytes overexpress classic markers of senescence such as p16INK4a, p53 et p21CIP1. Concerning the inductors mechanisms, we studied the implication of telomeric damages (telomere associated foci, TAF). During ageing, we found an increased number of TAFs per cardiomyocytes and their association with hypertrophy. Moreover, TAF- induction in cardiac H9c2 in vitro activated the p53/p21 pathway and induced senescence. These data confirmed the role of TAFs in cardiomyocyte senescence induction. Furthermore, aged cardiomyocytes exhibit a global alteration of genes involved in mitochondrial biology, oxidative stress and metabolism in aged cardiomyocytes that could play a prominent role in TAF accumulation with ageing. In a second part of the study, by using a next generation sequencing method (RNA-seq) we identified 6 new genes highly expressed in senescent cardiomyocytes (Prom2, Kcnk1, Pah, Edn3, Gdf15 and Tgfb2). Expression comparison with other senescent organs and cardiac stromal cells confirmed these new genes as cardiomyocyte specific. Thanks to an in vitro approach, we validate this signature by using different models of stress-induced senescence in cardiac H9c2 cells and demonstrated the implication of the p53 in the regulation of some of these genes. Moreover, Prom2 expression is associated with cardiomyocytes hypertrophy. In conclusion, we demonstrated that, with ageing, cardiomyocytes display a senescence phenotype associated with mitochondrial dysfunction and TAFs. This process is characterized by classic markers (p16INK4, p53/p21CIP1), hypertrophy and new identified signature. These new markers offer innovative perspectives in the understanding and the identification of the cardiac senescence and their potential deleterious role in heart failure., Le vieillissement de l'organisme prédispose à de nombreuses pathologies chroniques telles que l'insuffisance cardiaque (IC). Des études récentes ont montré que l'accumulation de cellules sénescentes dans les organes au cours du vieillissement est associée à l'apparition de ces pathologies. La sénescence cellulaire a initialement été décrite comme un arrêt stable du cycle cellulaire permettant de limiter la prolifération des cellules dont l'ADN est endommagé. Ce processus s'accompagne de profondes modifications de la fonction cellulaire, avec notamment l'acquisition d'un phénotype sécrétoire associé à la sénescence. La sénescence peut être induite par un raccourcissement des télomères ou par l'exposition à des signaux de stress, tels que le stress oxydant ou l'irradiation, qui entrainent l'activation de la réponse cellulaire aux dommages de l'ADN et l'expression des gènes suppresseurs de tumeurs (p16INK4a, p21CIP1, p53). Ces inhibiteurs du cycle cellulaire sont classiquement utilisés comme marqueur de sénescence car leur expression augmente de manière ubiquitaire au cours du vieillissement. Toutefois, ces marqueurs ne sont pas spécifiques du tissu concerné et un des objectifs de ma thèse a été d'identifier de nouveaux marqueurs de sénescence tissu-spécifiques qui pourraient caractériser un vieillissement cardiaque pathologique. Le vieillissement cardiaque se caractérise par une hypertrophie des cardiomyocytes, une sensibilité accrue au stress et une prédisposition à l'IC. Les cardiomyocytes étant des cellules post-mitotiques, les mécanismes de sénescence mis en jeu, les marqueurs associés et leur rôle potentiel dans l'IC demeurent à l'heure actuelle peu caractérisés. Au cours de ce travail de thèse nous avons donc entrepris : 1) d'étudier le rôle des télomères et des dysfonctions mitochondriales dans l'induction de la sénescence du cardiomyocyte et 2) d'identifier des marqueurs spécifiques. Nous avons tout d'abord montré que les cardiomyocytes de souris âgées expriment les marqueurs classiques de la sénescence comme p16INK4a, p53 et p21CIP1. Concernant les mécanismes inducteurs, nous avons étudié l'implication des dommages télomériques (telomere associated foci, TAF). Au cours du vieillissement, nous avons observé une augmentation du nombre de TAFs par cardiomyocytes en association avec l'hypertrophie. De plus, l'induction de TAFs in vitro est suffisante à l'activation de la voie de sénescence p53/p21CIP1 et l'hypertrophie dans une lignée de cardiomyoblastes H9c2. La formation des TAFs est augmentée chez des souris avec une dysfonction mitochondriale et est associée à l'activation des voies p53/p21CIP1. Par ailleurs, les cardiomyocytes âgés présentent une dérégulation des gènes impliqués dans la biologie mitochondriale pouvant rendre compte de l'augmentation des TAFs. Par l'analyse haut débit du transcriptome (RNAseq) nous avons identifié six nouveaux gènes qui sont surexprimés dans les cardiomyocytes sénescents (Prom2, Kcnk1, Pah, Edn3, Gdf15, Tgfb2). La comparaison d'expression de ces gènes dans le cœur avec d'autres tissus et avec le stroma cardiaque lors vieillissement a permis de confirmer la spécificité d'expression de ces marqueurs au niveau des cardiomyocytes. Nous avons validé cette signature dans deux modèles in vitro de sénescence induite par le stress et démontré que l'expression de certains de ces marqueurs est dépendante de la voie p53. De plus, l'expression de Prom2 est associée à l'hypertrophie des cardiomyocytes. En conclusion, nous avons démontré, qu'avec le vieillissement, les cardiomyocytes présentent un programme de sénescence associé à une dysfonction mitochondriale et une augmentation des TAFs. Cette sénescence se caractérise par l'activation des voies classiques de sénescence (p16INK4, p53/p21CIP1), une hypertrophie et l'acquisition d'une signature spécifique. Ces marqueurs offrent de nouvelles perspectives dans la compréhension de la sénescence cardiaque et dans son implication potentielle dans l'IC.

Published

2017

22. Caractérisation de la sénescence des cardiomyocytes et identification de marqueurs associés

Author

Maggiorani, Damien, Institut des Maladies Métaboliques et Cardiovasculaires (I2MC), Université Toulouse III - Paul Sabatier (UT3), Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées-Institut National de la Santé et de la Recherche Médicale (INSERM), Université Paul Sabatier - Toulouse III, and Jeanne Mialet-Perez

Subjects

Cardiomyocytes, [SDV.SP.PHARMA]Life Sciences [q-bio]/Pharmaceutical sciences/Pharmacology, Cardiomyocyte, Telomere, Mitochondrie, Télomères, Sénescence, Senescence, Marqueurs spécifiques, Specific markers

Abstract

Ageing of the organism is associated with several chronic pathologies such as heart failure (HF). Recent studies have demonstrated the link between the accumulation of senescent cells during ageing and age-associated diseases. Cellular senescence, originally defined as a stable cell cycle arrest, acts as a tumorigenic repressor by limiting the proliferation of DNA damaged cells. Despite this protective effect, senescence is characterized by deep remodeling of cell biology which drives functional disorders, such as the acquisition of a senescence-associated secretory phenotype (SASP). Senescence can be induced by telomeric attrition and by exposition to cellular stress signals such as oxidative stress or irradiation, which induce telomeric damage, activation of the DNA Damage Response (DDR) and increased expression of antitumoral genes (p16INK4a, p21CIP1, p53). These genes are classically used as markers of senescence because their expression increases in several tissues during ageing but they are not tissue-specific. Therefore, At the cardiac level, ageing is characterized by cardiomyocytes hypertrophy, increased sensitivity to stress and highest risk of developing HF. Cardiomyocytes are post- mitotic cells and the senescence inductor mechanisms, specifics markers and their role in HF remains poorly understood. This thesis project is articulated around two aims, 1/ studying the role of telomeric damages and mitochondrial dysfunction in triggering cardiomyocyte senescence and 2/ identification of specifics markers. Fisrtly, we shown that aged cardiomyocytes overexpress classic markers of senescence such as p16INK4a, p53 et p21CIP1. Concerning the inductors mechanisms, we studied the implication of telomeric damages (telomere associated foci, TAF). During ageing, we found an increased number of TAFs per cardiomyocytes and their association with hypertrophy. Moreover, TAF- induction in cardiac H9c2 in vitro activated the p53/p21 pathway and induced senescence. These data confirmed the role of TAFs in cardiomyocyte senescence induction. Furthermore, aged cardiomyocytes exhibit a global alteration of genes involved in mitochondrial biology, oxidative stress and metabolism in aged cardiomyocytes that could play a prominent role in TAF accumulation with ageing. In a second part of the study, by using a next generation sequencing method (RNA-seq) we identified 6 new genes highly expressed in senescent cardiomyocytes (Prom2, Kcnk1, Pah, Edn3, Gdf15 and Tgfb2). Expression comparison with other senescent organs and cardiac stromal cells confirmed these new genes as cardiomyocyte specific. Thanks to an in vitro approach, we validate this signature by using different models of stress-induced senescence in cardiac H9c2 cells and demonstrated the implication of the p53 in the regulation of some of these genes. Moreover, Prom2 expression is associated with cardiomyocytes hypertrophy. In conclusion, we demonstrated that, with ageing, cardiomyocytes display a senescence phenotype associated with mitochondrial dysfunction and TAFs. This process is characterized by classic markers (p16INK4, p53/p21CIP1), hypertrophy and new identified signature. These new markers offer innovative perspectives in the understanding and the identification of the cardiac senescence and their potential deleterious role in heart failure.; Le vieillissement de l'organisme prédispose à de nombreuses pathologies chroniques telles que l'insuffisance cardiaque (IC). Des études récentes ont montré que l'accumulation de cellules sénescentes dans les organes au cours du vieillissement est associée à l'apparition de ces pathologies. La sénescence cellulaire a initialement été décrite comme un arrêt stable du cycle cellulaire permettant de limiter la prolifération des cellules dont l'ADN est endommagé. Ce processus s'accompagne de profondes modifications de la fonction cellulaire, avec notamment l'acquisition d'un phénotype sécrétoire associé à la sénescence. La sénescence peut être induite par un raccourcissement des télomères ou par l'exposition à des signaux de stress, tels que le stress oxydant ou l'irradiation, qui entrainent l'activation de la réponse cellulaire aux dommages de l'ADN et l'expression des gènes suppresseurs de tumeurs (p16INK4a, p21CIP1, p53). Ces inhibiteurs du cycle cellulaire sont classiquement utilisés comme marqueur de sénescence car leur expression augmente de manière ubiquitaire au cours du vieillissement. Toutefois, ces marqueurs ne sont pas spécifiques du tissu concerné et un des objectifs de ma thèse a été d'identifier de nouveaux marqueurs de sénescence tissu-spécifiques qui pourraient caractériser un vieillissement cardiaque pathologique. Le vieillissement cardiaque se caractérise par une hypertrophie des cardiomyocytes, une sensibilité accrue au stress et une prédisposition à l'IC. Les cardiomyocytes étant des cellules post-mitotiques, les mécanismes de sénescence mis en jeu, les marqueurs associés et leur rôle potentiel dans l'IC demeurent à l'heure actuelle peu caractérisés. Au cours de ce travail de thèse nous avons donc entrepris : 1) d'étudier le rôle des télomères et des dysfonctions mitochondriales dans l'induction de la sénescence du cardiomyocyte et 2) d'identifier des marqueurs spécifiques. Nous avons tout d'abord montré que les cardiomyocytes de souris âgées expriment les marqueurs classiques de la sénescence comme p16INK4a, p53 et p21CIP1. Concernant les mécanismes inducteurs, nous avons étudié l'implication des dommages télomériques (telomere associated foci, TAF). Au cours du vieillissement, nous avons observé une augmentation du nombre de TAFs par cardiomyocytes en association avec l'hypertrophie. De plus, l'induction de TAFs in vitro est suffisante à l'activation de la voie de sénescence p53/p21CIP1 et l'hypertrophie dans une lignée de cardiomyoblastes H9c2. La formation des TAFs est augmentée chez des souris avec une dysfonction mitochondriale et est associée à l'activation des voies p53/p21CIP1. Par ailleurs, les cardiomyocytes âgés présentent une dérégulation des gènes impliqués dans la biologie mitochondriale pouvant rendre compte de l'augmentation des TAFs. Par l'analyse haut débit du transcriptome (RNAseq) nous avons identifié six nouveaux gènes qui sont surexprimés dans les cardiomyocytes sénescents (Prom2, Kcnk1, Pah, Edn3, Gdf15, Tgfb2). La comparaison d'expression de ces gènes dans le cœur avec d'autres tissus et avec le stroma cardiaque lors vieillissement a permis de confirmer la spécificité d'expression de ces marqueurs au niveau des cardiomyocytes. Nous avons validé cette signature dans deux modèles in vitro de sénescence induite par le stress et démontré que l'expression de certains de ces marqueurs est dépendante de la voie p53. De plus, l'expression de Prom2 est associée à l'hypertrophie des cardiomyocytes. En conclusion, nous avons démontré, qu'avec le vieillissement, les cardiomyocytes présentent un programme de sénescence associé à une dysfonction mitochondriale et une augmentation des TAFs. Cette sénescence se caractérise par l'activation des voies classiques de sénescence (p16INK4, p53/p21CIP1), une hypertrophie et l'acquisition d'une signature spécifique. Ces marqueurs offrent de nouvelles perspectives dans la compréhension de la sénescence cardiaque et dans son implication potentielle dans l'IC.

Published

2017

23. Biological Characteristics and Optical Reflectance Spectroscopy of Human Placenta Derived Mesenchymal Stem Cells for Application in Regenerative Medicine.

Author

Zare S, Ahmadi R, Mohammadnia A, Nilforoushzadeh MA, and Mahmoodi M

Abstract

Introduction: The efficiency of stem cell isolation, culture, and biological characterization techniques for treatment is facing serious challenges. The purpose of this study was to provide a protocol for isolation and culture of three types of mesenchymal stem cells (MSCs) derived from the human placenta, amniotic membrane, and umbilical cord with high efficiency used for cell therapy. Methods: During this experimental laboratory study, 10 complete placenta samples were prepared from cesarean section mothers. The protocol for isolation and culture of mesenchymal cells from the placenta tissue, umbilical cord, and amniotic membrane was enzymatically optimized. The morphological features of mesenchymal cells were investigated using an inverted microscope and their biological features were measured using flow cytometry. The differentiation potential of the cells was evaluated by measuring their differentiation capacity into osteocytes and adipocytes. The absorption and reflectance features of the cells were recorded by optical spectroscopy. Finally, the data were statistically analyzed. Results: The expression of CD44, CD73, CD90 and CD29 markers in human placenta tissue-derived cells was significant. CD14, CD34 and CD45 markers were not expressed or were slightly expressed. These cells were highly viable and successfully differentiated into osteocytes and adipocytes. MSCs absorbed more light than visible light by showing light absorption peaks at wavelengths of about 435 and 550 nm. Conclusion: The protocol used in this study for isolation and culture of human placenta tissue-derived MSCs had significant efficiency for the production of MSCs for use in cell therapy and tissue engineering., (Copyright © 2021 J Lasers Med Sci.)

Published

2021

24. Targeted versus Nontargeted Green Strategies Based on Headspace-Gas Chromatography-Ion Mobility Spectrometry Combined with Chemometrics for Rapid Detection of Fungal Contamination on Wheat Kernels.

Author

Gu S, Wang Z, Chen W, and Wang J

Subjects

Aspergillus growth & development, Penicillium growth & development, Triticum chemistry, Aspergillus isolation & purification, Food Contamination analysis, Gas Chromatography-Mass Spectrometry methods, Penicillium isolation & purification, Triticum microbiology

Abstract

Conventional methods for detecting fungal contamination are generally time-consuming and sample-destructive, making them impossible for large-scale nondestructive detection and real-time analysis. Therefore, the potential of headspace-gas chromatography-ion mobility spectrometry (HS-GC-IMS) was examined for the rapid determination of fungal infection on wheat samples in a rapid and nondestructive manner. In addition, the validation experiment of detecting the percent A. flavus infection presented in simulated field samples was carried out. Because the dual separation of HS-GC-IMS could generate massive amounts of three-dimensional data, proper chemometric processing was required. In this study, two chemometric strategies including: (i) nontargeted spectral fingerprinting and (ii) targeted specific markers were introduced to evaluate the performances of classification and prediction models. Results showed that satisfying results for the differentiation of fungal species were obtained based on both strategies (>80%) by the genetic algorithm optimized support vector machine (GA-SVM), and better values were obtained based on the first strategy (100%). Likewise, the GA-SVM model based on the first strategy achieved the best prediction performances ( R 2 = 0.979-0.998) of colony counts in fungal infected samples. The results of validation experiment showed that GA-SVM models based on the first strategy could still provide satisfactory classification (86.67%) and prediction ( R 2 = 0.889) performances for percent A. flavus infection presented in simulated field samples at day 4. This study indicated the feasibility of HS-GC-IMS-based approaches for the early detection of fungal contamination in wheat kernels.

Published

2020

25. Length polymorphism at the Glu-A3 and Glu-D3 in wild relatives of wheat

Author

Khoshro, H. H., Bihamta, M. R., Hassanii, M. E., Omidi, M., and Aghaei, M. J.

Published

2010

26. Determination of Stage Specific Markers for Liver Fibrosis in Hepatitis B: A Comparative Tissue Proteomic Study

Author

Ahmet Tarik Baykal, Mehmet Sokmen, Oguzhan Ozturk, Abdurrahman Sahin, Gözde Kir, Kamil Ozdil, Seyma Katrinli, Omer Sinan Sarac, Gizem Dinler Doganay, and H.L. Doğanay

Subjects

Pathology, medicine.medical_specialty, Hepatology, business.industry, Liver fibrosis, Specific Markers, Liver Fibrosis, Medicine, Stage specific, Hepatitis B, business, medicine.disease

Abstract

EASL International Liver Congress -- APR 13-17, 2016 -- Barcelona, SPAIN WOS: 000398711700732 Background and Aims: Chronic Hepatitis B infection is one of themajor causes of liver cirrhosis and around 600,000 people dieannually worldwide. The virus itself is non-cytopathic and the liverdamage is due to host immune reaction. Thus liver damage pathwaysmight differ in chronic HBV and comprehensive tissue proteomicanalysis is missing in literature. To estimate which patient withchronic hepatitis B will develop rapidly fibrosis or cirrhosis is yet athorny issue and requires a vast recognition of cellular pathwaysinvolved in fibrosis. The aim of this study is to enlighten pathwaysassociated with liver fibrosis in HBV infection for leading up to newtherapeutic targets and diagnostic biomarkers. EASL

Published

2016

27. Transcriptomics of Chicken Primordial Germ Cells

Author

Nguyen, Nhung Thi

Subjects

Biological sciences, Pathrings, Pathway, Primordial germ cells, Rna-seq, Specific markers, Transcriptomics, Cell Biology, Molecular Biology, Poultry or Avian Science

Abstract

Chicken primordial germ cells (PGCs) are derived from extraembryonic tissue of the embryo and first appear at stage X of development. They enter the bloodstream and migrate to the genital ridge, unite with somatic tissue to form a developing gonad, and then differentiate to sperm or ova (Fujimoto et al., 1976). Understanding molecular features of both male and female PGCs not only clarify the differentiation mechanism of such cells toward different germ lines, but will also help in selecting for highly productive types of commercial chicken. Most previous studies focused on the location of PGCs (Eyal-Giladi et al., 1981; Swift et al., 1914), but there are only a few reports describing unique properties of these cells compared to other embryonic cells. Germ cell specification is unclear due to the lack of reliable PGC markers. Most well known PGC identities are based on periodic acid-Schiff (PAS) reagent, which stains high glycoprotein content in PGCs (Fujimoto et al., 1976), and a cell surface glycoprotein, known as stage specific embryonic antigen-1 (SSEA-1). However, SSEA-1 is also expressed in other embryonic stem cells (Mozdziak et al., 2005). Thus, further research is warranted focusing on molecules, which underlie identities of chicken germ cells. In this study, we isolated PGCs from embryonic blood at three days of incubation. PGCs were cultured without feeder cells. PGCs were identified by generally accepted methods, including PAS staining, immunocytochemistry with anti-SSEA-1 antibody and germ cell-related gene expression. RNA purified from six male, six female PGC cell lines and chicken embryo fibroblast (CEFs) were reverse transcribed into cDNAs. cDNAs were then used to amplify candidate genes for PGCs markers, such as germline-specific genes (Cvh, Dazl), meiosis-related genes (Sycp, Stra8) and migration-related genes (Sdf-1). We compared the expression of these genes in PGCs with CEFs to ensure the unique characteristics of PGCs. These genes were not only highly expressed in chicken PGCs as compared to positive control from chicken juvenile testis tissue, but also were elevated in CEFs. Transcriptome using RNA-Seq in this study provided total gene expression profile of chicken PGCs, which elucidated unknown markers of PGCs as well as differences between male and female primordial germ cells.

Published

2015

28. Specific ultrastructural markers of human pinealomas: A study of four cases

Author

Hassoun, J., Gambarelli, D., Peragut, J. C., and Toga, M.

Published

1983

29. Genetic Diversity of DxP Population Yield Component in Oil Palm's Paternal Half-sib Family based on Microsatellite Markers

Author

Nida Wafiqah Nabila M. Solin, Sobir, and Nurita Toruan-Mathius

Subjects

Genetics, education.field_of_study, Genetic diversity, microsatellite, half-sib population, Population, Population based, Biology, Elaeis guineensis Jacq, specific markers, Energy(all), Yield (chemistry), Palm oil, Microsatellite, Polymorphic locus, Family based, education, population grouping

Abstract

Oil palm is a commodity that has potential to be transferred to biodiesel. This study is aimed to elucidate genetic diversity of four population based on yield component, using 27 microsatellites. Analysis of banding pattern resulted average polymorphic loci and PIC are 52.78% and 0.51. One, three, one and two markers specific to the group OB, BN, OY and FFB, respectively. Cluster analysis revealed level of genetic diversity and similarity at 0.56 and 0.78-0.98, which is succesfully separated the four population, as well as confirmed by PCoA, indicated that can be used to elucidate specific markers corresponding to populations used.