Your search keyword '"point mutations"' showing total 859 results

101. The Quality of Genetic Code Models in Terms of Their Robustness Against Point Mutations.

Author

Błażej, P., Fimmel, E., and Gumbel, M.

Subjects

*GENETIC models, *GENETIC code, *REPRESENTATIONS of graphs, *GRAPH theory, *MEASURE theory, *BLOCK codes

Abstract

In this paper, we investigate the quality of selected models of theoretical genetic codes in terms of their robustness against point mutations. To deal with this problem, we used a graph representation including all possible single nucleotide point mutations occurring in codons, which are building blocks of every protein-coding sequence. Following graph theory, the quality of a given code model is measured using the set conductance property which has a useful biological interpretation. Taking this approach, we found the most robust genetic code structures for a given number of coding blocks. In addition, we tested several properties of genetic code models generated by the binary dichotomic algorithms (BDA) and compared them with randomly generated genetic code models. The results indicate that BDA-generated models possess better properties in terms of the conductance measure than the majority of randomly generated genetic code models and, even more, that BDA-models can achieve the best possible conductance values. Therefore, BDA-generated models are very robust towards changes in encoded information generated by single nucleotide substitutions. [ABSTRACT FROM AUTHOR]

Published

2019

102. Gold-Iron oxide yolk-shell nanoparticles (YSNPs) as magnetic probe for fluorescence-based detection of 3 base mismatch DNA.

Author

Oza, Goldie, Krishnajyothi, Kaligotla, Merupo, Victor Ishrayelu, Bracamontes, Karen A. Chavez, Olmos, Pedro Chavez, Garrido, Efrain, Velumani, S., Sridharan, M., Sharma, Ashutosh, Arriaga, L.G., and Ramirez, Jose Tapia

Subjects

*DNA, *SURFACE plasmon resonance, *OLIGONUCLEOTIDES, *NUCLEIC acid probes, *DNA probes, *SINGLE-stranded DNA

Abstract

Graphical abstract Highlights • Seed-mediated Au-Fe3O4 Yolk-shell nanoparticles (YSNPs) are synthesized. • Flocculation parameter of thiolated ssDNA probe tethered YSNP is determined. • Hybridization using complementary, non-complementary and mutated strand is done. • Fluorescence based detection of mutation in DNA using YSNPs. • The minimum concentration of target DNA attached is determined. Abstract Seed-mediated Gold-Iron oxide yolk-shell nanoparticles (YSNPs) were synthesized and functionalized with cy5 attached- thiolated single strand DNA probe for the detection of mutated DNA. The optimum concentration of thiolated DNA determined from a bathochromic shift of surface plasmon resonance (SPR) peak, was 0.177μM. The effect of pH (2–10), temperature (4, 37, 60 and 100 °C), and ionic strengths (1 M to 4 M) on the stability of ssDNA probe tethered YSNPs, studied with the assistance of flocculation parameter. The detection of mutation in DNA was possible using such ssDNA probe functionalized and stabilized nanoparticles. The hybridization of the oligonucleotide probe with the complementary, non-complementary and mutated DNA strands are determined via their respective intensities of the fluorescence of cy5, an efficient fluorescent marker. The intensities help in the comprehension of the specificity of the system. The report predicts controlled efficiency of hybridization with the aid of Hamaker constant, which is determined as 1.15 × 10−20 J for DNA functionalized YSNPs. The minimum concentration of target DNA detected using this methodology was 1.2 × 10−11 mol/L. [ABSTRACT FROM AUTHOR]

Published

2019

103. Structural and functional characterization of TgpA, a critical protein for the viability of Pseudomonas aeruginosa.

Author

Uruburu, Mónica, Mastrangelo, Eloise, Bolognesi, Martino, Ferrara, Silvia, Bertoni, Giovanni, and Milani, Mario

Subjects

*PSEUDOMONAS aeruginosa, *PROTEINS, *MEMBRANE proteins

Abstract

Abstract Pseudomonas aeruginosa is an opportunistic pathogen associated with severe diseases, such as cystic fibrosis. During an extensive search for novel essential genes, we identified tgpA (locus PA2873) in P. aeruginosa PAO1, as a gene playing a critical role in bacterial viability. TgpA, the translated protein, is an internal membrane protein with a periplasmic soluble domain, predicted to be endowed with a transglutaminase-like fold, hosting the Cys404, His448, and Asp464 triad. We report here that Cys404 mutation hampers the essential role of TgpA in granting P. aeruginosa viability. Moreover, we present the crystal structure of the TgpA periplasmic domain at 1.6 Å resolution as a first step towards structure–activity analysis of a new potential target for the discovery of antibacterial compounds. [ABSTRACT FROM AUTHOR]

Published

2019

104. Thermal stability of single‐domain antibodies estimated by molecular dynamics simulations.

Author

Bekker, Gert‐Jan, Ma, Benson, and Kamiya, Narutoshi

Abstract

Single‐domain antibodies (sdAbs) function like regular antibodies, however, consist of only one domain. Because of their low molecular weight, sdAbs have advantages with respect to production and delivery to their targets and for applications such as antibody drugs and biosensors. Thus, sdAbs with high thermal stability are required. In this work, we chose seven sdAbs, which have a wide range of melting temperature (Tm) values and known structures. We applied molecular dynamics (MD) simulations to estimate their relative stability and compared them with the experimental data. High‐temperature MD simulations at 400 K and 500 K were executed with simulations at 300 K as a control. The fraction of native atomic contacts, Q, measured for the 400 K simulations showed a fairly good correlation with the Tm values. Interestingly, when the residues were classified by their hydrophobicity and size, the Q values of hydrophilic residues exhibited an even better correlation, suggesting that stabilization is correlated with favorable interactions of hydrophilic residues. Measuring the Q value on a per‐residue level enabled us to identify residues that contribute significantly to the instability and thus demonstrating how our analysis can be used in a mutant case study. [ABSTRACT FROM AUTHOR]

Published

2019

105. Parallel Computations in the Development of Thermostable Lipase Mutants.

Author

Kondratyev, M. S., Kabanov, A. V., Samchenko, A. A., Komarov, V. M., and Khechinashvili, N. N.

Subjects

*LIPASES, *HEAT stability in proteins, *HIGH performance computing, *PROTEIN conformation, *BACTERIAL enzymes

Abstract

The advanced high performance computing methods are used to study the stability and conformational dynamics of the bacterial enzyme lipase LipA, its mutants, and the close homologous enzyme CLE whose substrate is polylactic acid-based plastics. From the analysis of the GPU molecular dynamics of native lipases and their mutants the amino acid residues whose point substitutions can markedly improve the thermostability of the enzymes under study without deteriorating their activity are determined. [ABSTRACT FROM AUTHOR]

Published

2018

106. Insecticide-resistance mechanism of Plutella xylostella (L.) associated with amino acid substitutions in acetylcholinesterase-1: A molecular docking and molecular dynamics investigation.

Author

Sindhu, Thangaraj, Venkatesan, Thiruvengadam, Prabhu, Dhamodharan, Jeyakanthan, Jeyaraman, Gracy, Gandhi R., Jalali, Sushil Kumar, and Rai, Anil

Subjects

*DIAMONDBACK moth, *MOTHS, *PLUTELLA, *AMINO acid analysis, *GENETIC mutation

Abstract

Graphical abstract Highlights • Development of 3D functional structure of Px-AChE1 by threading method. • Conformational changes of the wild-type and mutant proteins was investigated. • A298S and G324A mutations affects the stability of the structure Px-AChE1. • Two mutations reduces the number of hydrogen bond interactions and docking scores. • Insecticide-resistance mechanism of Px -AChE1 was elucidated in detail. Abstract Acetylcholinesterase-1 (AChE1) is a vital enzyme involved in neurotransmission and represents an attractive insecticide-target for organophosphates and carbamates in Plutella xylostella (Linneaus), an important pest of cruciferous crops worldwide. However, insecticide-resistance often occurs due to mutations, making many organophosphates and carbamates ineffective. In particular, A298S and G324A mutations in AChE1 significantly lower the binding affinity of insecticides. In the present study, the wild-type and mutant AChE1 structures were constructed and their structural stabilities, residual flexibilities were investigated through molecular dynamics simulations. Subsequently, the structural and energetic changes responsible for the insecticide-resistance in AChE1 were analyzed using molecular docking. The results of molecular dynamics simulation showed that the mutant AChE1 shows little structural deviation than the wild-type, indicate the structural instability. Furthermore, the docking results demonstrated that these mutations break the intermolecular hydrogen bonding interactions and thereby affect the prothiofos as well as all insecticide binding. Hence, the results could provide some insights into the resistance mechanism of AChE1 in insecticides binding and helpful in the development of novel insecticides that are less susceptible to insecticide-resistance. [ABSTRACT FROM AUTHOR]

Published

2018

107. Genetic Abnormalities in Multiple Myeloma: Prognostic and Therapeutic Implications

Author

Ignacio J. Cardona-Benavides, Cristina de Ramón, and Norma C. Gutiérrez

Subjects

chromosomal translocations, copy number changes, point mutations, multiple myeloma, prognosis, targeted therapy, Cytology, QH573-671

Abstract

Some genetic abnormalities of multiple myeloma (MM) detected more than two decades ago remain major prognostic factors. In recent years, the introduction of cutting-edge genomic methodologies has enabled the extensive deciphering of genomic events in MM. Although none of the alterations newly discovered have significantly improved the stratification of the outcome of patients with MM, some of them, point mutations in particular, are promising targets for the development of personalized medicine. This review summarizes the main genetic abnormalities described in MM together with their prognostic impact, and the therapeutic approaches potentially aimed at abrogating the undesirable pathogenic effect of each alteration.

Published

2021

108. Resistance risk and resistance-related point mutations in cytochrome b of florylpicoxamid in Colletotrichum scovillei.

Author

Shi, Niuniu, Zhao, Deyou, Qiu, Dezhu, Wang, Haihong, Wu, Liting, Chen, Furu, Chen, Qing, and Du, Yixin

Subjects

*CYTOCHROME b, *COLLETOTRICHUM, *MOLECULAR docking, *ANTHRACNOSE, *FUNGICIDES

Abstract

Anthracnose caused by Colletotrichum scovillei is one of the most destructive diseases of chili worldwide. Florylpicoxamid is a new quinone inside inhibitor (QiI) fungicide, which shows intensively inhibitory activity against C. scovillei. Currently, florylpicoxamid is in the registration process to control chili anthracnose in China. This study investigated the risk of resistance and resistance genetic mechanism of C. scovillei to florylpicoxamid. Baseline sensitivity of 141 C. scovillei isolates to florylpicoxamid was established with an average EC 50 value of 0.2328 ± 0.0876 μg/mL. A total of seven stable florylpicoxamid-resistant mutants were obtained with resistance factors ranging from 41 to 276. The mutants showed similar or weaker traits in mycelial growth, sporulation, conidial germination and pathogenicity than their parental isolates. Generally, the resistance risk of C. scovillei to florylpicoxamid would be moderate. In addition, there was no cross-resistance between florylpicoxamid and the commercially available fungicides tested. A37V and S207L mutations in the cytochrome b protein were detected in four high-resistance and three moderate-resistance mutants, respectively, of which, S207L is a new mutation. Molecular docking showed that the two mutations conferred different resistance levels to florylpicoxamid. These results provide a new perspective for QiI fungicide-resistance mechanism and may help in the reasonable use of florylpicoxamid against chili anthracnose in the future. [Display omitted] • Baseline sensitivity of C. scovillei to florylpicoxamid was first established. • The resistance risk of C. scovillei to florylpicoxamid is moderate. • A37V and S207L mutations confer different resistance levels to florylpicoxamid. • Molecular docking showed that two point mutations decreased the binding affinity. [ABSTRACT FROM AUTHOR]

Published

2023

109. Fragile X syndrome and fragile X-associated disorders [version 1; referees: 2 approved]

Author

Akash Rajaratnam, Jasdeep Shergill, Maria Salcedo-Arellano, Wilmar Saldarriaga, Xianlai Duan, and Randi Hagerman

Subjects

Review, Articles, Animal Genetics, Child & Adolescent Psychiatry, Cognitive Neuroscience, Developmental & Pediatric Neurology, Medical Genetics, Neurobiology of Disease & Regeneration, Neurogenetics, Neuropharmacology & Psychopharmacology, whole exome sequencing, point mutations, copy number variants, FMR1 gene

Abstract

Fragile X syndrome (FXS) is caused by a full mutation on the FMR1 gene and a subsequent lack of FMRP, the protein product of FMR1. FMRP plays a key role in regulating the translation of many proteins involved in maintaining neuronal synaptic connections; its deficiency may result in a range of intellectual disabilities, social deficits, psychiatric problems, and dysmorphic physical features. A range of clinical involvement is also associated with the FMR1 premutation, including fragile X-associated tremor ataxia syndrome, fragile X-associated primary ovarian insufficiency, psychiatric problems, hypertension, migraines, and autoimmune problems. Over the past few years, there have been a number of advances in our knowledge of FXS and fragile X-associated disorders, and each of these advances offers significant clinical implications. Among these developments are a better understanding of the clinical impact of the phenomenon known as mosaicism, the revelation that various types of mutations can cause FXS, and improvements in treatment for FXS.

Published

2017

110. Spectrum of Genetic Variants in the Dystrophin Gene: A Single Centre Retrospective Analysis of 750 Duchenne and Becker Patients from Southern Italy

Author

Emanuela Viggiano, Esther Picillo, Luigia Passamano, Maria Elena Onore, Giulio Piluso, Marianna Scutifero, Annalaura Torella, Vincenzo Nigro, Luisa Politano, Viggiano, Emanuela, Picillo, Esther, Passamano, Luigia, Onore, Maria Elena, Piluso, Giulio, Scutifero, Marianna, Torella, Annalaura, Nigro, Vincenzo, and Politano, Luisa

Subjects

DMD gene variants in southern Italy, duplication, duplications, point mutations, Genetics, deletions, DMD gene variants, deletion, DMD gene variant, gene therapy, Genetics (clinical)

Abstract

Dystrophinopathies are X-linked recessive muscle disorders caused by mutations in the dystrophin (DMD) gene that include deletions, duplications, and point mutations. Correct diagnosis is important for providing adequate patient care and family planning, especially at this time when mutation-specific therapies are available. We report a large single-centre study on the spectrum of DMD gene variants observed in 750 patients analyzed for suspected Duchenne (DMD) or Becker (BMD) muscular dystrophy, over the past 30 years, at the Cardiomyology and Medical Genetics of the University of Campania. We found 534 (71.21%) large deletions, 73 (9.73%) large duplications, and 112 (14.93%) point mutations, of which 44 (5.9%) were small ins/del causing frame-shifts, 57 (7.6%) nonsense mutations, 8 (1.1%) splice site and 3 (0.4%) intronic mutations, and 31 (4.13%) non mutations. Moreover, we report the prevalence of the different types of mutations in patients with DMD and BMD according to their decade of birth, from 1930 to 2020, and correlate the data to the different techniques used over the years. In the most recent decades, we observed an apparent increase in the prevalence of point mutations, probably due to the use of Next-Generation Sequencing (NGS). In conclusion, in southern Italy, deletions are the most frequent variation observed in DMD and BMD patients followed by point mutations and duplications, as elsewhere in the world. NGS was useful to identify point mutations in cases of strong suspicion of DMD/BMD negative on deletions/duplications analyses. In the era of personalized medicine and availability of new causative therapies, a collective effort is necessary to enable DMD and BMD patients to have timely genetic diagnoses and avoid late implementation of standard of care and late initiation of appropriate treatment.

Published

2023

111. Innovative and Applied Research in Biology: Proceedings

Author

80th International Scientific Conference of the University of Latvia, Jankevica, Līga, and Auniņa, Liene

Subjects

Diatoms, Red beetroot juice, Low frequency electromagnetic radiation, EU habitats, Rare and threatened species, Artificial light, Cloudberry, NATURAL SCIENCES::Biology [Research Subject Categories], Pest control, Yellow sticky traps, Specially protected whorl snails (Vertigo spp.), Aquatic pollution, Point mutations, Bioindicators, Glutathione peroxidase, Greenhouse whiteflies, Duckweed Lemna minor, The Daugava River, Pro/antioxidative action, Chlorophyll fluorescence, Nature protection, Specific Pollution Sensitivity Index (IPS)

Abstract

The collection contains SCIENTIFIC articles on the topics of the LU 80 conference reports. The main focus is on innovative and applied research in biology and interdisciplinary fields., The project “Evaluation of the cloudberry (Rubus chamaemorus L.) genetic resources of Latvia and Belarus as a background for the breeding program and conservation” (2019–2021) (project No. in Latvia LV-BY/2020/4, project No. in Belarus B19LATG004), project “New control methods for energy and ecological efficiency increase of greenhouse plant lightning systems (uMOL)”, Grant Agreement Nr. 1.1.1.1/16/A/261. was financed by the European Regional Development Fund “The Landscape area “Augšdaugava” protection and management plan for period 2022–2034 is financed by the project ‘Preconditions for better biodiversity preservation and ecosystem protection in Latvia’, and co-funded by the European Union Cohesion Fund. UL research project “Biological diversity – impacts, functions and protection”, subproject “Biological research of living organisms in urban, rural and aquatic ecosystems”, No ZD2016/AZ81.

Published

2022

112. Next Generation Sequencing Based Forward Genetic Approaches for Identification and Mapping of Causal Mutations in Crop Plants: A Comprehensive Review

Author

Parmeshwar K. Sahu, Richa Sao, Suvendu Mondal, Gautam Vishwakarma, Sudhir Kumar Gupta, Vinay Kumar, Sudhir Singh, Deepak Sharma, and Bikram K. Das

Subjects

NGS, induced mutagenesis, point mutations, forward genetics, bioinformatics, mapping, Botany, QK1-989

Abstract

The recent advancements in forward genetics have expanded the applications of mutation techniques in advanced genetics and genomics, ahead of direct use in breeding programs. The advent of next-generation sequencing (NGS) has enabled easy identification and mapping of causal mutations within a short period and at relatively low cost. Identifying the genetic mutations and genes that underlie phenotypic changes is essential for understanding a wide variety of biological functions. To accelerate the mutation mapping for crop improvement, several high-throughput and novel NGS based forward genetic approaches have been developed and applied in various crops. These techniques are highly efficient in crop plants, as it is relatively easy to grow and screen thousands of individuals. These approaches have improved the resolution in quantitative trait loci (QTL) position/point mutations and assisted in determining the functional causative variations in genes. To be successful in the interpretation of NGS data, bioinformatics computational methods are critical elements in delivering accurate assembly, alignment, and variant detection. Numerous bioinformatics tools/pipelines have been developed for such analysis. This article intends to review the recent advances in NGS based forward genetic approaches to identify and map the causal mutations in the crop genomes. The article also highlights the available bioinformatics tools/pipelines for reducing the complexity of NGS data and delivering the concluding outcomes.

Published

2020

113. Phenotypic and Genotypic Analysis of Resistant Helicobacter pylori Strains Isolated from Children with Gastrointestinal Diseases

Author

Monika Maria Biernat, Aldona Bińkowska, Łukasz Łaczmański, Paweł Biernat, Paweł Krzyżek, and Grażyna Gościniak

Subjects

Helicobacter pylori, children, antibiotic susceptibility, clarithromycin, metronidazole, point mutations, Medicine (General), R5-920

Abstract

Antibiotic resistance of Helicobacter pylori is currently a global issue. The aim of this study was to analyze actual antibiotic resistance rates of H. pylori strains isolated from children with primary infections and to compare the incidence of mutations that determine resistance to clarithromycin (CH) and metronidazole (MET) in children with different clinical diagnoses. A total of 91 H. pylori strains were isolated from 108 children with primary infections. Drug susceptibility testing of the strains was performed using E-test method. Classical sequencing of DNA fragments was used to detect point mutations for CH and MET resistance. Resistance to CH was detected in 31% of isolated strains (28/91), while resistance to MET and CH was detected in 35% (32/91) of strains. A2143G was the most frequently detected mutation and was dominant among strains isolated from children with peptic ulcer disease (80%). Mutations in the rdxA gene were found significantly more frequently among MET-resistant strains than MET-sensitive strains (p = 0.03, Chi2 = 4.3909). In children, a higher frequency of H. pylori multiresistant strains was observed compared with the previous study in the same area. Differences were found in the occurrence of point mutations among H. pylori strains resistant to CH isolated from children with different clinical diagnoses.

Published

2020

114. Mouse Models of Glioma Pathogenesis: History and State of the Art

Author

Brandner, Sebastian and Watts, Colin, editor

Published

2013

115. Zebrafish knock-ins swim into the mainstream

Author

Sergey V. Prykhozhij and Jason N. Berman

Subjects

CRISPR/Cas9, Genome editing, Point mutations, Zebrafish, Medicine, Pathology, RB1-214

Abstract

The zebrafish is an increasingly popular model organism for human genetic disease research. CRISPR/Cas9-based approaches are currently used for multiple gene-editing purposes in zebrafish, but few studies have developed reliable ways to introduce precise mutations. Point mutation knock-in using CRISPR/Cas9 and single-stranded oligodeoxynucleotides (ssODNs) is currently the most promising technology for this purpose. Despite some progress in applying this technique to zebrafish, there is still a great need for improvements in terms of its efficiency, optimal design of sgRNA and ssODNs and broader applicability. The papers discussed in this Editorial provide excellent case studies on identifying problems inherent in the mutation knock-in technique, quantifying these issues and proposing strategies to overcome them. These reports also illustrate how the procedures for introducing specific mutations can be straightforward, such that ssODNs with only the target mutation are sufficient for generating the intended knock-in animals. Two of the studies also develop interesting point mutant knock-in models for cardiac diseases, validating the translational relevance of generating knock-in mutations and opening the door to many possibilities for their further study.

Published

2018

116. The interplay between mutations in cagA, 23S rRNA, gyrA and drug resistance in Helicobacter pylori

Author

Júlia Silveira Vianna, Ivy Bastos Ramis, Daniela Fernandes Ramos, Otávio Leite Gastal, Renato Azevedo da Silva, Carla Vitola Gonçalves, and Pedro Eduardo Almeida da Silva

Subjects

Antimicrobial resistance, Point mutations, Clarithromycin, Levofloxacin, CagA EPIYA, Arctic medicine. Tropical medicine, RC955-962, Infectious and parasitic diseases, RC109-216

Abstract

ABSTRACT In this study, we evaluated the mutations of Helicobacter pylori associated with resistance to clarithromycin and levofloxacin. Furthermore, based on the proposed interaction between antimicrobial resistance and pathogenicity, we correlated the mutation profiles of the strains with the presence of the pathogenicity gene cagA. We analyzed 80 gastric biopsy specimens from H. pylori-infected patients for point mutations in the 23S rRNA gene region and in the gyrA gene, which are related to clarithromycin and levofloxacin resistance, respectively, and investigated the presence of the cagA gene in these strains. We observed that in the assayed biopsies, 8.7% (7/80) had mutations in the 23S rRNA gene region at positions 2143 and 2142, while 22.5% (18/80) had mutations in gyrA at codons 87 and 91. Moreover, absence of the CagA-EPIYA pathogenicity factor was observed in 68% (17/25) of resistant samples. The knowledge of the local profile of antimicrobial resistance and the complex interplay involving resistance and pathogenicity can contribute to an appropriate clinical approach.

Published

2018

117. Influence of Point Mutations on PR65 Conformational Adaptability: Insights from Nanoaperture Optical Tweezer Experiments and Molecular Simulations.

Author

Bahar I, Banerjee A, Mathew S, Naqvi M, Yilmaz S, Zachoropoulou M, Doruker P, Kumita J, Yang SH, Gur M, Itzhaki L, and Gordon R

Abstract

PR65 is the HEAT-repeat scaffold subunit of the heterotrimeric protein phosphatase 2A (PP2A) and an archetypal tandem-repeat protein, forming a spring-like architecture. PR65 conformational mechanics play a crucial role in PP2A function by opening/closing the substrate-binding/catalysis interface. Using in-silico saturation mutagenesis we identified "hinge" residues of PR65, whose substitutions are predicted to restrict its conformational adaptability and thereby disrupt PP2A function. Molecular simulations revealed that a subset of hinge mutations stabilized the extended/open conformation, whereas another had the opposite effect. By trapping in nanoaperture optical tweezer, we characterized PR65 motion and showed that the former mutants exhibited higher corner frequencies and lower translational scattering, indicating a shift towards extended conformations, whereas the latter showed the opposite behavior. Thus, experiments confirm the conformations predicted computationally. The study highlights the utility of nanoaperture-based tweezers for exploring structure and dynamics, and the power of integrating this single-molecule method with in silico approaches., Competing Interests: Competing interests The authors declare no competing interests.

Published

2023

118. Histone mutations in cancer.

Author

Espinoza Pereira KN, Shan J, Licht JD, and Bennett RL

Subjects

Humans, Child, Nucleosomes genetics, Mutation, Chromatin, Carcinogenesis genetics, Cell Transformation, Neoplastic genetics, Histones metabolism, Neoplasms genetics, Neoplasms pathology

Abstract

Genes encoding histone proteins are recurrently mutated in tumor samples, and these mutations may impact nucleosome stability, histone post-translational modification, or chromatin dynamics. The prevalence of histone mutations across diverse cancer types suggest that normal chromatin structure is a barrier to tumorigenesis. Oncohistone mutations disrupt chromatin structure and gene regulatory mechanisms, resulting in aberrant gene expression and the development of cancer phenotypes. Examples of oncohistones include the histone H3 K27M mutation found in pediatric brain cancers that blocks post-translational modification of the H3 N-terminal tail and the histone H2B E76K mutation found in some solid tumors that disrupts nucleosome stability. Oncohistones may comprise a limited fraction of the total histone pool yet cause global effects on chromatin structure and drive cancer phenotypes. Here, we survey histone mutations in cancer and review their function and role in tumorigenesis., (© 2023 The Author(s).)

Published

2023

119. Incorporation of inosine into DNA by human polymerase eta (Polη): kinetics of nucleotide misincorporation and structural basis for the mutagenicity.

Author

Zhang Q and Tretyakova N

Subjects

Humans, Kinetics, Inosine genetics, Nucleotidyltransferases, DNA genetics, Nucleotides, Mutagens

Abstract

Inosine, a purine nucleoside containing the hypoxanthine (HX) nucleobase, can form in DNA via hydrolytic deamination of adenine. Due to its structural similarity to guanine and the geometry of Watson-Crick base pairs, inosine can mispair with cytosine upon catalysis by DNA polymerases, leading to AT → GC mutations. Additionally, inosine plays an essential role in purine nucleotide biosynthesis, and inosine triphosphate is present in living cells. In a recent publication, Averill and Jung examined the possibility of polη catalyzed incorporation of deoxyinosine triphosphate (dITP) across dC and dT in a DNA template. They found that dITP can be incorporated across C or T, with the ratio of 13.7. X ray crystallography studies revealed that the mutagenic incorporation of dITP by human polη was affected by several factors including base pair geometry in the active site of the polymerase, tautomerization of nucleobases, and the interaction of the incoming dITP nucleotide with active site residues of polη. This study demonstrates that TLS incorporation of inosine monophosphate (IMP) into growing DNA chains contributes to its mutagenic potential in cells., (© 2023 The Author(s).)

Published

2023

120. The Role of ERG11 Point Mutations in the Resistance of Candida albicans to Fluconazole in the Presence of Lactate

Author

Anna Krasowska, Zofia Łapińska, Aneta K. Urbanek, and Daria Derkacz

Subjects

Microbiology (medical), Infectious Diseases, General Immunology and Microbiology, Immunology and Allergy, Candida albicans, fluconazole (FLC), lactate, ERG11 gene, point mutations, Molecular Biology

Abstract

Candidiasis refers to both superficial and deep-tissue fungal infections often caused by Candida albicans. The treatment of choice for these infections is the use of azoles, such as fluconazole (FLC). However, the increased use of antifungal agents has led to the emergence of azole-resistant isolates of C. albicans. Thus, the development of alternative drugs that are more efficient and with a better toxicological profile is necessary. This study aimed to determine the susceptibility profile of C. albicans CAF2-1 strain to FLC in the presence of glucose or lactate. The research was also focused on single nucleotide polymorphism (SNP) and the determination of the effect of the identified point mutations on the amino acid sequence of the Erg11 protein. The results show the growth of C. albicans CAF2-1 in the presence of FLC was significantly lower in the presence of lactate than in glucose. As a result, among recorded 45 amino acid mutations, the following mutations may be associated with the reduced susceptibility of C. albicans to FLC: G10D, G10V, I11M, I11R, Y13N, F31V, L35F, A249D, Q250H, E266G, R267G, N273K, D275C, D275G, D275R. Moreover, a twice higher number of hot-spot mutations was found in the presence of glucose as a sole carbon source compared to cells grown on lactate.

Published

2022

121. Evaluation of Proton Transfer in DNA Constituents: Development and Application of Ab Initio Based Reaction Kinetics

Author

Kosenkov, Dmytro, Kholod, Yana, Gorb, Leonid, Leszczynski, Jerzy, Paneth, Piotr, editor, and Dybala-Defratyka, Agnieszka, editor

Published

2010

122. BCR‐ABL exon 7 deletion and novel point mutation in patient with chronic myelogenous leukemia and TKI resistance.

Author

Mikhailov, Ilya

Subjects

*GENETIC mutation, *CHRONIC myeloid leukemia, *EXONS (Genetics), *SPLIT genes, *PROTEIN-tyrosine kinases

Abstract

Key Clinical Message: I report a novel BCR‐ABL point mutation c.844G>C p.E282Q and a case of combination of two BCR‐ABL point mutations (p.E282Q and p.L298R) and exon 7 deletion (del. c.1086‐1270) in TKI‐resistant patient. These point mutations were present only in a truncated transcript and were absent in "wild‐type" BCR‐ABL transcript. I report a novel BCR‐ABL point mutation c.844G>C p.E282Q and a case of combination of two BCR‐ABL point mutations (p.E282Q and p.L298R) and exon 7 deletion (del. c.1086‐1270) in TKI‐resistant patient. These point mutations were present only in a truncated transcript and were absent in "wild‐type" BCR‐ABL transcript. [ABSTRACT FROM AUTHOR]

Published

2018

123. Species specificity of rat and human α7 nicotinic acetylcholine receptors towards different classes of peptide and protein antagonists.

Author

Yu, Jinpeng, Zhu, Xiaopeng, Zhang, Lu, Kudryavtsev, Denis, Kasheverov, Igor, Lei, Yumiao, Zhangsun, Dongting, Tsetlin, Victor, and Luo, Sulan

Subjects

*NEUROTOXIC agents, *CONOTOXINS, *NICOTINIC acetylcholine receptors, *POINT mutation (Biology), *XENOPUS eggs, *CONUS

Abstract

Peptide and protein neurotoxins, such as α-conotoxins from Cone snails and α-neurotoxins from snake venoms, are excellent tools to identify distinct nicotinic acetylcholine receptor (nAChR) subtypes. Here we compared the rat/human species specificity of α7 nAChR towards peptide and protein neurotoxins and found that α-conotoxin analogues [K11A]TxIB and [H5D]RegIIA are much more potent on the rat versus human α7 receptor expressed in Xenopus oocytes. In the hope to determine the key residue responsible for the difference in α-conotoxin analogues affinities, ten single mutants of rat α7 nAChR were obtained because there are 10 differences in the extracellular ligand-binding domains of these species, and only K185R mutation decreased the affinity for α-conotoxins [K11A]TxIB and [H5D]RegIIA, down to their low affinities for human α7 nAChR. On the other hand, the reverse mutation R185K in human α7 nAChR resulted in the greatest increase in the affinity for both conotoxins, while a double mutation hα7[S183N, R185K] made the potency of the receptor for them as high as that of rat α7 nAChR. The effects of mutations at position 185 were investigated also with some other α-conotoxins and cobra venom α-cobratoxin and found to have similar but much less pronounced effects on their species specificity. Molecular modeling provided possible explanation for the high species selectivity of [K11A]TxIB and [H5D]RegIIA towards α7 nAChR, opening the new way for design of their analogues with improved affinity to the human receptor. [ABSTRACT FROM AUTHOR]

Published

2018

124. Molecular typing of a novel canine parvovirus type 2a mutant circulating in Italy.

Author

Mira, Francesco, Dowgier, Giulia, Purpari, Giuseppa, Vicari, Domenico, Di Bella, Santina, Macaluso, Giusi, Gucciardi, Francesca, Randazzo, Vincenzo, Decaro, Nicola, and Guercio, Annalisa

Subjects

*CANINE parvovirus, *VIRUS diseases in dogs, *VIRAL genes, *GENETIC mutation, *VIRAL genomes

Abstract

Canine parvovirus (CPV) is the etiological agent of a severe viral disease of dogs. After its emergence in late 1970s, the CPV original type (CPV-2) was rapidly and totally replaced by three antigenic variants named CPV-2a, CPV-2b and CPV-2c. CPV has an evolutionary rate nearest to those of RNA viruses, with consequences on disease diagnosis and epidemiology. This paper reports the molecular characterization of eight CPV-2a strains collected from dogs in Italy in 2016–2017. Genetic analysis was conducted on a CPV genomic region encompassing both open reading frames (ORFs) encoding for nonstructural (NS1-NS2) and structural proteins (VP1-VP2). Sequence analysis indicates new and unreported sequence changes, mainly affecting the VP2 gene, which included the mutation Tyr324Leu. This study represents the first evidence of a new CPV-2a mutant (VP2 324Leu) and illustrates the importance of a continuous molecular survey in order to obtain more information on effective spread of new CPV mutants. [ABSTRACT FROM AUTHOR]

Published

2018

125. Functional effects of substitutions I92T and V95A in actin-binding period 3 of tropomyosin.

Author

Śliwinska, Małgorzata, Robaszkiewicz, Katarzyna, Czajkowska, Marta, Zheng, Wenjun, and Moraczewska, Joanna

Subjects

*MICROFILAMENT proteins, *TROPOMYOSINS, *TROPONIN, *MUSCLE contraction, *GENETIC mutation

Abstract

Tropomyosin polymerizes along actin filaments and together with troponin regulates muscle contraction in a Ca-dependent manner. Actin-binding periods are homologous residues, which repeat along tropomyosin sequence, form tropomyosin-actin interface and determine regulatory functions. To learn how period 3 is involved in tropomyosin functions we examined effects of two mutations in Tpm1.1, I92T and V95A, which have been linked to dilated and hypertrophic cardiomyopathies characterized respectively by hyper- and hypocontractile phenotypes. In this work the functional consequences of both mutations were studied in vitro by using actin thin filaments reconstituted in the presence of mutant Tpm1.1 homodimers carrying the substitutions in both tropomyosin chains, Tpm1.1 heterodimers with substitution only in one Tpm1.1 chain, and Tpm1.1/Tpm2.2 heterodimers with substitution in Tpm1.1 chain and wild type Tpm2.2 in the second chain. The presence of the substitution I92T decreased the tropomyosin affinity for actin, abolished Ca 2+ -dependent activation of the actomyosin ATPase, decreased the sensitivity of the tropomyosin-troponin complex to subsaturating Ca 2+ concentrations and reduced the cooperativity of the myosin-induced transition of the thin filament to a fully active state. The substitution V95A had opposite effects: increased actin affinity, increased the actomyosin ATPase activity above the level observed for wild type Tpm and increased cooperativity of myosin-induced activation of the thin filaments reconstructed with homo- and heterodimers of tropomyosin. Substitutions I92T and V95A were dominant, but the formation of heterodimers modified the effects observed for homodimers. [ABSTRACT FROM AUTHOR]

Published

2018

126. A double point mutation at residues Ile14 and Val15 of Bcl‐2 uncovers a role for the BH4 domain in both protein stability and function.

Author

Monaco, Giovanni, La Rovere, Rita, Karamanou, Spyridoula, Welkenhuyzen, Kirsten, Ivanova, Hristina, Vandermarliere, Elien, Di Martile, Marta, Del Bufalo, Donatella, De Smedt, Humbert, Parys, Jan B., Economou, Anastassios, and Bultynck, Geert

Subjects

*POINT mutation (Biology), *BCL genes, *B cell lymphoma, *PROTEIN stability, *AMINO acid residues, *PROTEIN structure

Abstract

B‐cell lymphoma 2 (Bcl‐2) protein is the archetype apoptosis suppressor protein. The N‐terminal Bcl‐2‐homology 4 (BH4) domain of Bcl‐2 is required for the antiapoptotic function of this protein at the mitochondria and endoplasmic reticulum (ER). The involvement of the BH4 domain in Bcl‐2′s antiapoptotic functions has been proposed based on Gly‐based substitutions of the Ile14/Val15 amino acids, two hydrophobic residues located in the center of Bcl‐2′s BH4 domain. Following this strategy, we recently showed that a BH4‐domain‐derived peptide in which Ile14 and Val15 have been replaced by Gly residues, was unable to dampen proapoptotic Ca2+‐release events from the ER. Here, we investigated the impact of these mutations on the overall structure, stability, and function of full‐length Bcl‐2 as a regulator of Ca2+ signaling and cell death. Our results indicate that full‐length Bcl‐2 Ile14Gly/Val15Gly, in contrast to wild‐type Bcl‐2, (a) displayed severely reduced structural stability and a shortened protein half‐life; (b) failed to interact with Bcl‐2‐associated X protein (BAX), to inhibit the inositol 1,4,5‐trisphosphate receptor (IP3R) and to protect against Ca2+‐mediated apoptosis. We conclude that the hydrophobic face of Bcl‐2′s BH4 domain (Ile14, Val15) is an important structural regulatory element by affecting protein stability and turnover, thereby likely reducing Bcl‐2′s ability to modulate the function of its targets, like IP3R and BAX. Therefore, Bcl‐2 structure/function studies require pre‐emptive and reliable determination of protein stability upon introduction of point mutations at the level of the BH4 domain. [ABSTRACT FROM AUTHOR]

Published

2018

127. The interplay between mutations in cagA, 23S rRNA, gyrA and drug resistance in Helicobacter pylori.

Author

Vianna, Júlia Silveira, Ramis, Ivy Bastos, Ramos, Daniela Fernandes, Gastal, Otávio Leite, da Silva, Renato Azevedo, Gonçalves, Carla Vitola, and da Silva, Pedro Eduardo Almeida

Subjects

RIBOSOMAL RNA, DRUG resistance in bacteria, HELICOBACTER pylori, CLARITHROMYCIN, MICROBIAL virulence

Abstract

In this study, we evaluated the mutations of Helicobacter pylori associated with resistance to clarithromycin and levofloxacin. Furthermore, based on the proposed interaction between antimicrobial resistance and pathogenicity, we correlated the mutation profiles of the strains with the presence of the pathogenicity gene cagA. We analyzed 80 gastric biopsy specimens from H. pylori-infected patients for point mutations in the 23S rRNA gene region and in the gyrA gene, which are related to clarithromycin and levofloxacin resistance, respectively, and investigated the presence of the cagA gene in these strains. We observed that in the assayed biopsies, 8.7% (7/80) had mutations in the 23S rRNA gene region at positions 2143 and 2142, while 22.5% (18/80) had mutations in gyrA at codons 87 and 91. Moreover, absence of the CagA-EPIYA pathogenicity factor was observed in 68% (17/25) of resistant samples. The knowledge of the local profile of antimicrobial resistance and the complex interplay involving resistance and pathogenicity can contribute to an appropriate clinical approach. [ABSTRACT FROM AUTHOR]

Published

2018

128. Technologies for analysis of circulating tumour DNA: Progress and promise.

Author

Zou, Zhen, Qi, Peng, Qing, Zhihe, Zheng, Jing, Yang, Sheng, Chen, Weiju, and Yang, Ronghua

Subjects

*CIRCULATING tumor DNA, *GENETIC mutation, *BIOMARKERS, *EPIGENETICS, *POLYMERASE chain reaction

Abstract

Circulating tumour DNA (ctDNA) isolated from peripheral blood has recently been shown to be a biomarker to detect gene mutations for the diagnosis, treatment, and prognosis of cancer. Utilizing ctDNA as the liquid biopsy has significant potential to pave the way toward a better understanding of cancer at the molecular level and improve patient outcomes in the future. Over the past decades, a large number of efforts have been devoted to the development of valid methods for analysing ctDNA, which provide researchers and clinicians a variety of tools to detect and monitor tumours. In this review, we displayed an overview of current representative technologies for the detection of ctDNA and discuss recent technical advancements. Then, the challenges and outlooks in this promising field are featured on the basis of its current development. [ABSTRACT FROM AUTHOR]

Published

2017

129. Evaluation of the Stability of Folding Nucleus upon Mutation

Author

Lonquety, Mathieu, Lacroix, Zoé, Chomilier, Jacques, Istrail, Sorin, editor, Pevzner, Pavel, editor, Waterman, Michael S., editor, Chetty, Madhu, editor, Ngom, Alioune, editor, and Ahmad, Shandar, editor

Published

2008

130. The role of filaggrin mutations leading to a decrease in the amount of protein in the development of atopic dermatitis and bronchial asthma in children

Author

Svetlana I. Makarova, Dmitry V. Mitrofanov, Elena G. Komova, Igor V. Kaloshkin, Alexandra B. Shintyapina, Larissa F. Kaznacheeva, Vera V. Zelenskaya, Elena G. Kondyurina, Oksana А. Batychko, and Valentin A. Vavilin

Subjects

Mutation, integumentary system, atopic dermatitis, atopic march, biology, business.industry, point mutations, Point mutation, filaggrin gene, Mucous membrane of nose, Odds ratio, Atopic dermatitis, Immunoglobulin E, medicine.disease, medicine.disease_cause, Immunology, biology.protein, medicine, Medicine, bronchial asthma, business, Filaggrin, Asthma

Abstract

Atopic diseases remain one of the most common childhood diseases. At the beginning of life, atopic dermatitis (AD) occurs, and only then bronchial asthma (BA). This staged development of sensitization and transformation of clinical manifestations is called the atopic march. Are the genetic factors of predisposition to AD the same for BA? There is still no definite answer to this question. Mutations in the filaggrin gene (FLG) are known to impair skin barrier function. Filaggrin is expressed not only in the skin, but also in the respiratory organs of the nasal mucosa, lungs, and bronchi. Filaggrin defects lead not only to disruption of the skin barrier, but also to an increase in the Th2 response and increased production of IgE, typical of bronchial asthma. Therefore, mutations in the FLG gene can be a risk factor for the development of not only AD, but also BA.The aimof this study was to compare the values of the association of mutations in the FLG gene with AD and BA in the Russian sample.Material and methods.Case-control study design. We used 265 blood samples from children. 4 mutations in the filaggrin gene were identified by real-time PCR. The association of mutations with disease was assessed by odds ratio.Results.We showed a strongly pronounced association of the deletion of 4 nucleotides (2282del4) with AD, but not with BA, although for patients with atopic BA the indicator of the association of this mutation with the disease was higher than for the group with symptoms of bronchial asthma identified by the ISAAC questionnaire. These results lead to the conclusion that the role of the filaggrin gene for BA is much less significant than for AD.

Published

2021

131. Population structure and evolution of resistance to acetolactate synthase (ALS)‐inhibitors in Amaranthus tuberculatus in Italy

Author

Ulrich Lutz, Maurizio Sattin, Giulio Galla, Detlef Weigel, Andrea Milani, and Laura Scarabel

Subjects

0106 biological sciences, resistance management, Waterhemp, point mutations, Population, Single-nucleotide polymorphism, 01 natural sciences, evolution, education, Research Articles, Genetics, Acetolactate synthase, education.field_of_study, haplotype analysis, resistance spread, Amaranthus, biology, Herbicides, Haplotype, General Medicine, biology.organism_classification, 010602 entomology, Settore AGR/07 - GENETICA AGRARIA, Acetolactate Synthase, Italy, Insect Science, Mutation (genetic algorithm), Amaranthus tuberculatus, biology.protein, Microsatellite, Haplotype estimation, Agronomy and Crop Science, 010606 plant biology & botany, Research Article, Herbicide Resistance

Abstract

BACKGROUND Before 2010, Amaranthus tuberculatus (Moq.) J. D. Sauer was barely known to farmers and stakeholders in Italy. Since then, several populations resistant to acetolactate synthase (ALS)‐inhibiting herbicides have been collected. In most populations, a known target site resistance‐endowing mutation was found, a Trp to Leu substitution at position 574 of the ALS gene, but it was unclear whether they had evolved resistance independently or not. The aims of the work were (i) to elucidate the population structure of Italian ALS‐resistant A. tuberculatus populations, and (ii) to analyze the ALS haplotypes of the various populations to determine whether resistance arose multiple times independently. RESULTS In order to determine the population structure of eight A. tuberculatus populations, eight previously described microsatellite loci were used. Two ancestors were found: three populations derived from one, and five from the other. In the 4‐kb ALS region of the genome, including the 2‐kb coding region, 389 single nucleotide polymorphisms were found. In silico haplotype estimation was used to reconstruct the sequence of three distinct haplotypes carrying the Trp574Leu mutation. In addition, no mutation was found in 83% of plants of a single population. CONCLUSIONS (i) Resistance must have arisen independently at least three times; (ii) at least one population was already resistant to ALS inhibitors when introduced in Italy; (iii) a single haplotype with a Trp574Leu mutation was shared among six populations, probably because of broad seed dispersal; and (iv) one population likely evolved nontarget site ALS inhibitors resistance. © 2021 The Authors. Pest Management Science published by John Wiley & Sons Ltd on behalf of Society of Chemical Industry., The same mutant ALS haplotype was found in five A. tuberculatus populations in Italy. Another population had the same resistance‐endowing mutation, but a different haplotype. A seventh population had no mutations.

Published

2021

132. Determination of Risk Groups for the Covid-19 Underlying Deseases

Author

Alexandra A. Vagis, Anatoliy M. Gupal, and Ivan V. Sergienko

Subjects

2019-20 coronavirus outbreak, 021103 operations research, General Computer Science, Coronavirus disease 2019 (COVID-19), business.industry, point mutations, Point mutation, 010102 general mathematics, 0211 other engineering and technologies, 02 engineering and technology, Disease, Bioinformatics, 01 natural sciences, Article, DNA sequencing, Bayesian recognition procedure, Risk groups, Healthy individuals, Medicine, 0101 mathematics, business, Gene

Abstract

For every disease, there is a certain set of genes whose mutations increase the risk of illness development. DNA sequencing of sick and healthy individuals results in the determination of genes related to certain diseases. Efficient procedures are described in order to determine point mutations in gene sequences of the examined patients. The optimal Bayesian procedure is used to determine risk groups for certain diseases, including the ones that underlie COVID-19.

Published

2021

133. Novel Mutations in a Lethal Case of Lymphomatous Adult T Cell Lymphoma with Cryptic Myocardial Involvement

Author

Bidhan C. Bandyopadhyay, Taraneh Hashemi Zonouz, Rami Abdulbaki, and Victor E. Nava

Subjects

0301 basic medicine, Pathology, medicine.medical_specialty, TCR/NF-kB, adult T-cell leukemia/lymphoma, point mutations, Case Report, Autopsy, Adult T-cell leukemia/lymphoma, 03 medical and health sciences, 0302 clinical medicine, hemic and lymphatic diseases, diabetic cardiomyopathy, Medicine, Lymph node, RC254-282, Fluorodeoxyglucose, Ejection fraction, medicine.diagnostic_test, business.industry, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, medicine.disease, Lymphoma, Leukemia, 030104 developmental biology, medicine.anatomical_structure, Positron emission tomography, 030220 oncology & carcinogenesis, next-generation sequencing, business, medicine.drug

Abstract

The autopsy of a 65-year-old diabetic African American male revealed significant left myocardial involvement by adult T-cell leukemia/lymphoma (ATLL) despite normal pre-mortem fluorodeoxyglucose (FDG) uptake by positron emission tomography/computed tomography (PET/CT). Due to pre-existing diabetic cardiomyopathy with reduced ejection fraction (EF) and compatible imaging studies, cardiac lymphomatous involvement was not suspected. While peripheral blood was negative for leukemia, next-generation sequencing of a lymph node revealed at least eight novel mutations (AXIN1, R712Q, BARD1 R749K, CTNNB1 I315V, CUX1 P102T, DNMT3A S199R, FGFR2 S431L, LRP1B Y2560C and STAG2 I771M). These findings underscore a diagnostic pitfall in a rare lymphomatous variant of ATLL infiltrating myocardium and contribute to its molecular characterization.

Published

2021

134. Comparison between the mechanisms of Clearfield ® wheat and Lolium rigidum multiple resistant to Acetyl CoA Carboxylase and Acetolactate Synthase inhibitors

Author

Torra, Joel, Montull, José M., Calha, Isabel M., Osuna, Maria D., Portugal, João, and Prado, Rafael De

Subjects

Herbicide resistance, Portugal, Spain, Amaranthus palmeri, Enhanced metabolism, Lolium spp, Multiple-herbicide resistance, Point mutations

Abstract

The evolution of herbicide resistance in weeds has emerged as one of the most serious threats to sustainable food production systems, which necessitates the evaluation of herbicides to determine their efficacy. The first herbicide resistance case in the Iberian Peninsula was reported about 50 years ago, wherein Panicum dichotomiflorum was found to be resistant (R) to atrazine in Spanish maize fields. Since then, herbicide resistance has evolved in 33 weed species, representing a total of 77 single-herbicide-resistance cases in this geographic area: 66 in Spain and 11 in Portugal. Changes in agricultural practices, namely the adoption of non-tillage systems and the increased use of herbicides, led to the selection of weed biotypes resistant to a wide range of herbicides. Nowadays the most important crops in Spain and Portugal (maize, winter cereals, rice, citrus, fruits, and olive orchards) are affected, with biotypes resistant to several mechanisms of action (MoAs), namely: ALS inhibitors (20 species), ACCase inhibitors (8 species), PS II inhibitors (18 species), and synthetic auxin herbicides (3 species). More recently, the fast increase in cases of resistance to the EPSPS-inhibiting herbicide glyphosate has been remarkable, with 11 species already having evolved resistance in the last 10 years in the Iberian Peninsula. The diversity of resistance mechanisms, both target-site and non-target-site, are responsible for the resistance to different MoAs, involving point mutations in the target site and enhanced rates of herbicide detoxification, respectively. More serious are the 13 cases reported with multiple-herbicide resistance, with three cases of resistance to three–four MoAs, and one case of resistance to five MoAs. Future research perspectives should further study the relationship between management strategies and the occurrence of TSR and NTSR resistance, to improve their design, develop monitoring and diagnostic tools for herbicide resistance, and deepen the study of NTSR resistance

Published

2022

135. Evaluation of Variations in Plastid DNA Non-coding Regions in Selected Species of the Genus Solanum.

Author

SEDLÁKOVÁ, VLADIMíRA, SEDLÁK, PETR, ZEKA, DUKAGJIN, DOMKÁŘOVÁ, JAROSLAVA, DOLEŽAL, PETR, and VEJL, PAVEL

Subjects

*SOLANUM, *PLANT genetics, *NON-coding DNA, *GENETIC polymorphisms in plants, *NUCLEOTIDE sequence, *DENATURING gradient gel electrophoresis

Abstract

The diversity of three non-coding plastid DNA loci (trnL/trnF spacer, trnV/16SrRNA spacer, trnL/trnL intron) was assessed in 16 Solanum L. species (135 individuals). Polymorphisms were detected by denaturing gradient gel electrophoresis (DGGE) and verified by direct sequencing. No intraspecific diversity and only poor interspecific diversity was detected. Unique S. mochiquense Ochoa specific length polymorphism at the trnL/trnL locus represented by duplication of an 18 bp segment was discovered. The detected DGGE interspecific trnL/trnF locus polymorphism did not specifically associate with single point mutations in the sequence confirmed by sequencing. The DGGE method was found to be a simple and cheap pre-exploring tool for mutation detection in compared DNA regions. Some identified polymorphisms can be used in the management of genetic resources. [ABSTRACT FROM AUTHOR]

Published

2017

136. Second mutation in PARK2 is absent in patients with sporadic Parkinson's disease and heterozygous exonic deletions/duplications in parkin gene.

Author

Shulskaya, Marina V., Shadrina, Maria I., Fedotova, Ekaterina Yu., Abramycheva, Nataliya Yu., Limborska, Svetlana A., Illarioshkin, Sergey N., and Slominsky, Petr A.

Subjects

*PARKINSON'S disease, *POINT mutation (Biology), *EXONS (Genetics), *DELETION mutation, *POLYMERASE chain reaction

Abstract

Aim of the study: Mutations inPARK2are one of the causes of Parkinson's disease (PD). Deletions and duplications/triplications of one exon or exon groups account for a large proportion of mutations in the gene. At the present time, it is still not fully clear whether heterozygous mutations cause the development of PD. Our study aimed at conducting screening for mutations inPARK2in patients with a sporadic form of PD to clarify the role ofPARK2in the development of PD.Materials and methods: The cohort of 327 patients with PD was screened by quantitative real-time polimerase chain reaction (PCR) with subsequent Sanger sequencing.Results: It was found that a sufficiently large proportion of these patients (21 patients, 6.4%) were carriers of heterozygous deletions or duplications inPARK2. Analysis ofPARK2exon rearrangement carriers for the presence of point mutations inPARK2did not reveal any variants with pathogenic significance.Conclusions: Thus, our data indicate that heterozygous deletions and duplications can play an important role in the pathogenesis of PD and can be considered as dominant mutations with low penetrance. [ABSTRACT FROM PUBLISHER]

Published

2017

137. Genotoxicity assessment of piperitenone oxide: An in vitro and in silico evaluation.

Author

Di Sotto, Antonella, Di Giacomo, Silvia, Abete, Lorena, Božović, Mijat, Parisi, Olga A., Barile, Fabio, Vitalone, Annabella, Izzo, Angelo A., Ragno, Rino, and Mazzanti, Gabriela

Subjects

*GENETIC toxicology, *BACTERIAL mutation, *MONOTERPENES, *DNA damage, *FLAVOR

Abstract

Piperitenone oxide, a natural flavouring agent also known as rotundifolone, has been studied for the genotoxicity assessment by an integrated in vitro and in silico experimental approach, including the bacterial reverse mutation assay, the micronucleus test, the comet assay and the computational prediction by Toxtree and VEGA tools. Under our experimental conditions, the monoterpene showed to induce both point mutations (i.e. frameshift, base-substitution and/or oxidative damage) and DNA damage (i.e. clastogenic or aneuploidic damage, or single-strand breaks). Computational prediction for piperitenone oxide agreed with the toxicological data, and highlighted the presence of the epoxide function and the α,β-unsaturated carbonyl as possible structural alerts for DNA damage. However, improving the toxicological libraries for natural occurring compounds is required in order to favour the applicability of in silico models to the toxicological predictions. Further in vivo evaluations are strictly needed in order to evaluate the role of the bioavailability of the substance and the metabolic fate on its genotoxicity profile. To the best of our knowledge, these data represent the first evaluation of the genotoxicity for this flavour compound and suggest the need of further studies to assess the safety of piperitenone oxide as a flavouring agent. [ABSTRACT FROM AUTHOR]

Published

2017

138. Point mutations in the DNA binding domain of p53 contribute to glioma progression and poor prognosis.

Author

Sarma, P., Dutta, D., Mirza, Z., Saikia, K., and Baishya, B.

Subjects

*POINT mutation (Biology), *DNA-binding proteins, *GLIOMAS, *NUCLEOTIDE sequencing, *CANCER

Abstract

TP53 mutations play a significant role in glioma tumorigenesis. When located in in the DNA binding domain, these mutations can perturb p53 protein conformation and its function, often culminating in altered downstream signaling. Here we describe prevalent pattern of TP53 point mutations in a cohort of 40 glioma patients and show their relevance to gliomagenesis. Point mutations in exon 5-9 of TP53 gene were detected by DNA sequencing. Possible influence of identified mutations at the function of p53 was studied computationally and correlated with the survival. Point mutations in TP53 were detected in 10 glioma samples (25%), out of which 70% were from high grade glioma. A total of 19 TP53 point mutations were identified, out of which 42% were found to be in the DNA binding region of p53. Computational analysis predicted 87.5% of these mutations to be 'probably damaging'. In three patients with tumors possessing point mutations R273H, R248Q, Y163H and R175H and poor survival times, structural analysis revealed the nature of these mutations to be disruptive and associated with high risk for cancer progression. In high grade glioma, recurrent TP53 point mutations may be the key to tumor progression, thus, emphasizing their significance in gliomagenesis. [ABSTRACT FROM AUTHOR]

Published

2017

139. Pairwise contact energy statistical potentials can help to find probability of point mutations.

Author

Saravanan, K. M., Suvaithenamudhan, S., Parthasarathy, S., and Selvaraj, S.

Abstract

ABSTRACT To adopt a particular fold, a protein requires several interactions between its amino acid residues. The energetic contribution of these residue-residue interactions can be approximated by extracting statistical potentials from known high resolution structures. Several methods based on statistical potentials extracted from unrelated proteins are found to make a better prediction of probability of point mutations. We postulate that the statistical potentials extracted from known structures of similar folds with varying sequence identity can be a powerful tool to examine probability of point mutation. By keeping this in mind, we have derived pairwise residue and atomic contact energy potentials for the different functional families that adopt the (α/β)8 TIM-Barrel fold. We carried out computational point mutations at various conserved residue positions in yeast Triose phosphate isomerase enzyme for which experimental results are already reported. We have also performed molecular dynamics simulations on a subset of point mutants to make a comparative study. The difference in pairwise residue and atomic contact energy of wildtype and various point mutations reveals probability of mutations at a particular position. Interestingly, we found that our computational prediction agrees with the experimental studies of Silverman et al. (Proc Natl Acad Sci 2001;98:3092-3097) and perform better prediction than iMutant and Cologne University Protein Stability Analysis Tool. The present work thus suggests deriving pairwise contact energy potentials and molecular dynamics simulations of functionally important folds could help us to predict probability of point mutations which may ultimately reduce the time and cost of mutation experiments. Proteins 2016; 85:54-64. © 2016 Wiley Periodicals, Inc. [ABSTRACT FROM AUTHOR]

Published

2017

140. Fluorescent PCR-based Screening Methods for Precise Knock-in of Small DNA Fragments and Point Mutations in Zebrafish.

Author

Carrington B and Sood R

Abstract

Generation of zebrafish ( Danio rerio ) models with targeted insertion of epitope tags and point mutations is highly desirable for functional genomics and disease modeling studies. Currently, CRISPR/Cas9-mediated knock-in is the method of choice for insertion of exogeneous sequences by providing a repair template for homology-directed repair (HDR). A major hurdle in generating knock-in models is the labor and cost involved in screening of injected fish to identify the precise knock-in events due to low efficiency of the HDR pathway in zebrafish. Thus, we developed fluorescent PCR-based high-throughput screening methods for precise knock-in of epitope tags and point mutations in zebrafish. Here, we provide a step-by-step guide that describes selection of an active sgRNA near the intended knock-in site, design of single-stranded oligonucleotide (ssODN) templates for HDR, quick validation of somatic knock-in using injected embryos, and screening for germline transmission of precise knock-in events to establish stable lines. Our screening method relies on the size-based separation of all fragments in an amplicon by fluorescent PCR and capillary electrophoresis, thus providing a robust and cost-effective strategy. Although we present the use of this protocol for insertion of epitope tags and point mutations, it can be used for insertion of any small DNA fragments (e.g., LoxP sites, in-frame codons). Furthermore, the screening strategy described here can be used to screen for precise knock-in of small DNA sequences in any model system, as PCR amplification of the target region is its only requirement. Key features This protocol expands the use of fluorescent PCR and CRISPR-STAT for screening of precise knock-in of small insertions and point mutations in zebrafish. Allows validation of selected sgRNA and HDR template within two weeks by somatic knock-in screening. Allows robust screening of point mutations by combining restriction digest with CRISPR-STAT. Graphical overview Overview of the three-phase knock-in pipeline in zebrafish (created with BioRender.com )., Competing Interests: Competing interestsThe authors declare no competing interests., (©Copyright : © 2023 The Authors; This is an open access article under the CC BY-NC license.)

Published

2023

141. Classification of Cushing's syndrome PKAc mutants based upon their ability to bind PKI.

Author

Omar MH, Kihiu M, Byrne DP, Lee KS, Lakey TM, Butcher E, Eyers PA, and Scott JD

Subjects

Humans, Cyclic AMP-Dependent Protein Kinases metabolism, Mutation, Catalytic Domain, Cushing Syndrome genetics

Abstract

Cushing's syndrome is an endocrine disorder caused by excess production of the stress hormone cortisol. Precision medicine strategies have identified single allele mutations within the PRKACA gene that drive adrenal Cushing's syndrome. These mutations promote perturbations in the catalytic core of protein kinase A (PKAc) that impair autoinhibition by regulatory subunits and compartmentalization via recruitment into AKAP signaling islands. PKAcL205R is found in ∼45% of patients, whereas PKAcE31V, PKAcW196R, and L198insW and C199insV insertion mutants are less prevalent. Mass spectrometry, cellular, and biochemical data indicate that Cushing's PKAc variants fall into two categories: those that interact with the heat-stable protein kinase inhibitor PKI, and those that do not. In vitro activity measurements show that wild-type PKAc and W196R activities are strongly inhibited by PKI (IC50 < 1 nM). In contrast, PKAcL205R activity is not blocked by the inhibitor. Immunofluorescent analyses show that the PKI-binding variants wild-type PKAc, E31V, and W196R are excluded from the nucleus and protected against proteolytic processing. Thermal stability measurements reveal that upon co-incubation with PKI and metal-bound nucleotide, the W196R variant tolerates melting temperatures 10°C higher than PKAcL205. Structural modeling maps PKI-interfering mutations to a ∼20 Å diameter area at the active site of the catalytic domain that interfaces with the pseudosubstrate of PKI. Thus, Cushing's kinases are individually controlled, compartmentalized, and processed through their differential association with PKI., (© 2023 The Author(s). Published by Portland Press Limited on behalf of the Biochemical Society.)

Published

2023

142. Phylogenetic signals from point mutations and polymorphic Alu insertions

Author

York, Daniel S., Blum, Vincent M., Low, Jonathan A., Rowold, Diane J., Puzyrev, Valery, Saliukov, Victor, Odinokova, Olga, Herrera, Rene J., and McDonald, John F., editor

Published

2000

143. Monitoring and Management of Imidazolinone-Resistant Red Rice (Oryza sativa L., var. sylvatica) in Clearfield® Italian Paddy Rice

Author

Laura Scarabel, Cesare Cenghialta, Dario Manuello, and Maurizio Sattin

Subjects

weedy rice, Clearfield® rice cultivars, imazamox resistance, ALS inhibitors, IWM, point mutations, crop rotation, Agriculture

Abstract

The introduction in Italy of Clearfield® rice cultivars carrying imidazolinone-resistant traits provides an efficient option to control red rice, a conspecific weed of cultivated rice. However, despite the promulgation of specific guidelines for Clearfield® technology management, imazamox red rice survivors have been reported by farmers. Forty-two fields were monitored in 2010 and 2011 throughout the Piedmont and Lombardy regions and field cases were recorded of herbicides use and agronomic practices. Whole-plant sensitivity to imazamox was assessed and the resistance mechanism was determined by molecular analysis. Twenty-six red rice populations out of 42 were imazamox-resistant and plants of all the resistant populations possess a Ser to Asn substitution at locus 653 of the ALS gene determining the target-site resistance. Farmers frequently grow Clearfield® varieties for more than two consecutive years so increasing the selection pressure exerted by imazamox and favoring the evolution of resistant red rice. To maintain the sustainability of this new technology, a proper management based on crop rotation, utilization of certified seeds and strict control of red rice escapes has to be implemented. More generally, all stakeholders must increase their awareness that the selection pressure exerted by ALS inhibitors in rice cropping system should be reduced.

Published

2012

144. Molecular diagnosis of patients with congenital adrenal hyperplasia due to 21-hydroxylase deficiency

Author

Adriana Agramonte Machado, Henrik Falhammar, Emma Domínguez Alonso, Teresa Collazo Mesa, Tania Mayvel Espinosa Reyes, and Paulina Arasely Lantigua Cruz

Subjects

Male, 0301 basic medicine, medicine.medical_specialty, Genotype, Endocrinology, Diabetes and Metabolism, Genetic counseling, Population, 030209 endocrinology & metabolism, medicine.disease_cause, Compound heterozygosity, Gastroenterology, lcsh:Diseases of the endocrine glands. Clinical endocrinology, 03 medical and health sciences, 0302 clinical medicine, Congenital adrenal hyperplasia due to 21-hydroxylase deficiency, Internal medicine, Point mutations, medicine, Genetics, Humans, Congenital adrenal hyperplasia, education, education.field_of_study, Mutation, lcsh:RC648-665, Adrenal Hyperplasia, Congenital, business.industry, Point mutation, Infant, Newborn, Infant, General Medicine, Prognosis, medicine.disease, Cross-Sectional Studies, Phenotype, 030104 developmental biology, Female, Steroid 21-Hydroxylase, business, Biomarkers, Follow-Up Studies, Research Article

Abstract

Background Congenital adrenal hyperplasia (CAH) is an autosomal recessive group of diseases. 21-Hydroxylase deficiency (21OHD) accounts for between 95 and 99% of all CAH cases. Objectives To characterize the genotype of patients clinically diagnosed with 21OHD and to identify the most frequent mutations in the Cuban population. Methods Cross-sectional descriptive study that included all patients diagnosed with 21OHD from January 2000 to December 2018. For the molecular analysis of the CYP21A2 gene, a protocol was used that used the polymerase chain reaction in 2 stages; in the first stage genomic DNA was amplified and 5 point mutations were detected in the second stage (Intron 2, Deletion of 8 bp, G318X, I172N and P30L). Results The 5 point mutations were identified in 31 of the 55 (56%) studied patients, 16/21 (76%) in the salt-wasting, 12/18 (67%) in the simple virilizing and 3/16 (19%) in the nonclassical form. The Intron 2 mutation was the most frequent, followed by G318X and 8 bp deletion. Compound heterozygotes were found in 10 patients, all corresponded to classic forms of the disease. Conclusions The causal CYP21A2 gene mutation was detected in 56% (72% in classic CAH), which makes the method encouraging. The most frequent mutations observed were Intron 2 and G318X. The detection of mutations offers confirmation of diagnosis, prediction of phenotype and genetic counseling.

Published

2020

145. The molecular functions of RIT1 and its contribution to human disease

Author

Frank McCormick, Pau Castel, Antonio Cuevas-Navarro, and Richard Van

Subjects

MAPK/ERK pathway, Biochemistry & Molecular Biology, point mutations, Context (language use), GTPase, Biology, Medical and Health Sciences, Biochemistry, Article, 03 medical and health sciences, Rare Diseases, 0302 clinical medicine, Neoplasms, medicine, cancer, 2.1 Biological and endogenous factors, Animals, Humans, Aetiology, Molecular Biology, 030304 developmental biology, 0303 health sciences, GTPases, Animal, Point mutation, Noonan Syndrome, Cancer, stress response, Cell Biology, Biological Sciences, medicine.disease, Phenotype, Disease Models, Animal, Disease Models, Chemical Sciences, Mutation, ras Proteins, Noonan syndrome, Adenocarcinoma, Neuroscience, 030217 neurology & neurosurgery

Abstract

RIT1 is a member of the Ras family of GTPases that direct broad cellular physiological responses through tightly controlled signaling networks. The canonical Ras GTPases are well-defined regulators of the RAF/MEK/ERK pathway and mutations in these are pathogenic in cancer and a class of developmental disorders termed RASopathies. Emerging clinical evidences have now demonstrated a role for RIT1 in RASopathies, namely Noonan syndrome, and various cancers including lung adenocarcinoma and myeloid malignancies. While RIT1 has been mostly described in the context of neuronal differentiation and survival, the mechanisms underlying aberrant RIT1-mediated signaling remain elusive. Here, we will review efforts undertaken to characterize the biochemical and functional properties of the RIT1 GTPase at the molecular, cellular, and organismal level, as well as provide a phenotypic overview of different human conditions caused by RIT1 mutations. Deeper understanding of RIT1 biological function and insight to its pathogenic mechanisms are imperative to developing effective therapeutic interventions for patients with RIT1-mutant Noonan syndrome and cancer.

Published

2020

146. Significance and interpretation of molecular diagnostics for insecticide resistance management of agricultural pests

Author

John Vontas, Konstantinos Mavridis, Wannes Dermauw, and Thomas Van Leeuwen

Subjects

0106 biological sciences, 0301 basic medicine, Insecticides, Insecta, P450 GENES, HELICOVERPA-ARMIGERA, DIAMIDE INSECTICIDES, POINT MUTATIONS, Agricultural pest, Biology, Insect Control, 010603 evolutionary biology, 01 natural sciences, TARGET-SITE RESISTANCE, Insecticide Resistance, 03 medical and health sciences, FUNCTIONAL-CHARACTERIZATION, Animals, Pathology, Molecular, Ecology, Evolution, Behavior and Systematics, TETRANYCHUS-URTICAE, 2. Zero hunger, Resistance (ecology), business.industry, RYANODINE RECEPTOR, Biology and Life Sciences, CYTOCHROME-P450, Agriculture, Diagnostic marker, Molecular diagnostics, Resistance monitoring, EUROPEAN POPULATIONS, 030104 developmental biology, Molecular Diagnostic Techniques, Risk analysis (engineering), Insect Science, Mutation, Portfolio, Pest Control, Insecticide resistance management, business, Biomarkers

Abstract

Insecticide resistant pests become increasingly difficult to control in current day agriculture. Because of environmental and health concerns, the insecticide portfolio to combat agricultural pests is gradually decreasing. It is therefore crucial to make rational decisions on insecticide use to assure effective resistance management. However, resistance monitoring programs that inform on pest susceptibility and resistance are not yet common practice in agriculture. Molecular markers of resistance that are turned into convenient diagnostic tools are urgently needed and will only increase in importance. This review investigates which factors determine the strength, diagnostic value, and success of a diagnostic marker, and in which cases recent technical advances might provide new opportunities for decision making in an operational meaningful way.

Published

2020

147. Novel Engineered Programmable Systems for ADAR-Mediated RNA Editing

Author

Guillermo Aquino-Jarquin

Subjects

0301 basic medicine, Regulation of gene expression, RNA editing, Computer science, point mutations, gRNA, Point mutation, RNA, Computational biology, ADAR, Article, editing platforms, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, 030220 oncology & carcinogenesis, Drug Discovery, RNA modification, Molecular Medicine, CRISPR, Guide RNA

Abstract

One of the most prevalent forms of post-transcriptional RNA modification is the conversion of adenosine-to-inosine (A-to-I), mediated by adenosine deaminase acting on RNA (ADAR) enzymes. The advent of the CRISPR/Cas systems inspires researchers to work actively in the engineering of programmable RNA-guided machines for basic research and biomedical applications. In this regard, CIRTS (CRISPR-Cas-Inspired RNA Targeting System), RESCUE (RNA Editing for Specific C to U Exchange), RESTORE (Recruiting Endogenous ADAR to Specific Transcripts for Oligonucleotide-mediated RNA Editing), and LEAPER (Leveraging Endogenous ADAR for Programmable Editing of RNA) are innovative RNA base-editing platforms that have recently been engineered to perform programmable base conversions on target RNAs mediated by ADAR enzymes in mammalian cells. Thus, these four currently characterized RNA-editing systems constitute novel molecular tools with compelling programmability, specificity, and efficiency that show us some creative ways to take advantage of the engineered deaminases for precise base editing. Moreover, the advanced engineering of these systems permits editing of full-length transcripts containing disease-causing point mutations without the loss of genomic information, providing an attractive alternative for in vivo research and in the therapeutic setting if the challenges encountered in off-target edits and delivery are appropriately addressed. Here, I present an analytical approach of the current status and rapid progress of the novel ADAR-mediated RNA-editing systems when highlighting the qualities of each new RNA-editing platform and how these RNA-targeting strategies could be used to recruit human ADARs on endogenous transcripts, not only for our understanding of RNA-modification-mediated regulation of gene expression but also for editing clinically relevant mutations in a programmable and straightforward manner.

Published

2020

148. The remarkable evolutionary plasticity of Coronaviruses by mutation and recombination: Insights for the COVID-19 pandemic and the future evolutionary paths of SARS-CoV-2

Author

Amoutzias, Grigorios D, Nikolaidis, Marios, Tryfonopoulou, Eleni, Chlichlia, Katerina, Markoulatos, Panayotis, Oliver, Stephen, Oliver, Stephen [0000-0001-6330-7526], Apollo - University of Cambridge Repository, Amoutzias, Grigorios D [0000-0001-5961-964X], Tryfonopoulou, Eleni [0000-0002-2808-2541], and Chlichlia, Katerina [0000-0003-4952-0675]

Subjects

point mutations, viruses, coronavirus, Review, Genome, Viral, Microbiology, Antiviral Agents, Evolution, Molecular, Virology, evolution, Animals, Humans, Recombination, Genetic, SARS-CoV-2, pandemic, Vaccination, COVID-19, virus diseases, Viral Vaccines, spike, vaccines, QR1-502, recombination, COVID-19 Drug Treatment, respiratory tract diseases, Infectious Diseases, Drug Design, Mutation

Abstract

Coronaviruses (CoVs) constitute a large and diverse subfamily of positive-sense single-stranded RNA viruses. They are found in many mammals and birds and have great importance for the health of humans and farm animals. The current SARS-CoV-2 pandemic, as well as many previous epidemics in humans that were of zoonotic origin, highlights the importance of studying the evolution of the entire CoV subfamily in order to understand how novel strains emerge and which molecular processes affect their adaptation, transmissibility, host/tissue tropism, and patho non-homologous genicity. In this review, we focus on studies over the last two years that reveal the impact of point mutations, insertions/deletions, and intratypic/intertypic homologous and non-homologous recombination events on the evolution of CoVs. We discuss whether the next generations of CoV vaccines should be directed against other CoV proteins in addition to or instead of spike. Based on the observed patterns of molecular evolution for the entire subfamily, we discuss five scenarios for the future evolutionary path of SARS-CoV-2 and the COVID-19 pandemic. Finally, within this evolutionary context, we discuss the recently emerged Omicron (B.1.1.529) VoC.

Published

2022

149. Getting higher on rugged landscapes: Inversion mutations open access to fitter adaptive peaks in NK fitness landscapes

Author

Leonardo Trujillo, Paul Banse, Guillaume Beslon, Artificial Evolution and Computational Biology (BEAGLE), Laboratoire d'InfoRmatique en Image et Systèmes d'information (LIRIS), Université Lumière - Lyon 2 (UL2)-École Centrale de Lyon (ECL), Université de Lyon-Université de Lyon-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Institut National des Sciences Appliquées de Lyon (INSA Lyon), Université de Lyon-Institut National des Sciences Appliquées (INSA)-Institut National des Sciences Appliquées (INSA)-Centre National de la Recherche Scientifique (CNRS)-Université Lumière - Lyon 2 (UL2)-École Centrale de Lyon (ECL), Université de Lyon-Institut National des Sciences Appliquées (INSA)-Institut National des Sciences Appliquées (INSA)-Centre National de la Recherche Scientifique (CNRS)-Inria Lyon, Institut National de Recherche en Informatique et en Automatique (Inria)-Institut National de Recherche en Informatique et en Automatique (Inria), Institut National des Sciences Appliquées de Lyon (INSA Lyon), Université de Lyon-Institut National des Sciences Appliquées (INSA), and Université de Lyon-Institut National des Sciences Appliquées (INSA)-Institut National des Sciences Appliquées (INSA)-Centre National de la Recherche Scientifique (CNRS)

Subjects

Chromosomal rearrangements, FOS: Physical sciences, [INFO.INFO-DM]Computer Science [cs]/Discrete Mathematics [cs.DM], Access to Information, Evolution, Molecular, Inversion mutations, Cellular and Molecular Neuroscience, Point mutations, [MATH.MATH-CO]Mathematics [math]/Combinatorics [math.CO], Genetics, Fitness landscapes, Physics - Biological Physics, Selection, Genetic, [NLIN.NLIN-AO]Nonlinear Sciences [physics]/Adaptation and Self-Organizing Systems [nlin.AO], Quantitative Biology - Populations and Evolution, Molecular Biology, Adaptive dynamics, Ecology, Evolution, Behavior and Systematics, [SDV.GEN.GPO]Life Sciences [q-bio]/Genetics/Populations and Evolution [q-bio.PE], Models, Genetic, Ecology, Populations and Evolution (q-bio.PE), [SDV.BBM.BM]Life Sciences [q-bio]/Biochemistry, Molecular Biology/Molecular biology, [INFO.INFO-MO]Computer Science [cs]/Modeling and Simulation, Biological Evolution, Nonlinear Sciences - Adaptation and Self-Organizing Systems, Computational Theory and Mathematics, Biological Physics (physics.bio-ph), Modeling and Simulation, FOS: Biological sciences, Mutation, Genetic Fitness, Adaptation and Self-Organizing Systems (nlin.AO)

Abstract

Molecular evolution is often conceptualised as adaptive walks on rugged fitness landscapes, driven by mutations and constrained by incremental fitness selection. It is well known that epistasis shapes the ruggedness of the landscape's surface, outlining their topography (with high-fitness peaks separated by valleys of lower fitness genotypes). However, within the strong selection weak mutation (SSWM) limit, once an adaptive walk reaches a local peak, natural selection restricts passage through downstream paths and hampers any possibility of reaching higher fitness values. Here, in addition to the widely used point mutations, we introduce a minimal model of sequence inversions to simulate adaptive walks. We use the well known NK model to instantiate rugged landscapes. We show that adaptive walks can reach higher fitness values through inversion mutations, which, compared to point mutations, allows the evolutionary process to escape local fitness peaks. To elucidate the effects of this chromosomal rearrangement, we use a graph-theoretical representation of accessible mutants and show how new evolutionary paths are uncovered. The present model suggests a simple mechanistic rationale to analyse escapes from local fitness peaks in molecular evolution driven by (intragenic) structural inversions and reveals some consequences of the limits of point mutations for simulations of molecular evolution., Comment: 35 pages, 10 figures, accepted for publication in PLoS Computational Biology

Published

2022

150. Non-Steroidal Androgen Receptor Antagonists and Prostate Cancer: A Survey on Chemical Structures Binding this Fast-Mutating Target

Author

Greta Varchi and Claudia Ferroni

Subjects

antiandrogens, Male, castration resistant prostate cancer, AR-targeting conjugates, point mutations, Biochemistry, Tosyl Compounds, 03 medical and health sciences, Prostate cancer, chemistry.chemical_compound, 0302 clinical medicine, PROTACs, Nitriles, Phenylthiohydantoin, Drug Discovery, Androgen Receptor Antagonists, medicine, Humans, Enzalutamide, Anilides, AR protein degraders, Receptor, 030304 developmental biology, Pharmacology, 0303 health sciences, Organic Chemistry, Antagonist, Prostatic Neoplasms, medicine.disease, Histone Deacetylase Inhibitors, Androgen receptor, chemistry, Mechanism of action, Drug Resistance, Neoplasm, Receptors, Androgen, CYP17A1, 030220 oncology & carcinogenesis, Benzamides, Cancer research, Molecular Medicine, Androstenes, medicine.symptom

Abstract

The Androgen Receptor (AR) pathway plays a major role in both the pathogenesis and progression of prostate cancer. In particular, AR is chiefly involved in the development of Castration-Resistant Prostate Cancer (CRPC) as well as in the resistance to the secondgeneration AR antagonist enzalutamide, and to the selective inhibitor of cytochrome P450 17A1 (CYP17A1) abiraterone. Several small molecules acting as AR antagonists have been designed and developed so far, also as a result of the ability of cells expressing this molecular target to rapidly develop resistance and turn pure receptor antagonists into ineffective or event detrimental molecules. This review covers a survey of most promising classes of non-steroidal androgen receptor antagonists, also providing insights into their mechanism of action and efficacy in treating prostate cancer.

Published

2019