Your search keyword '"Gartler, S M"' showing total 33 results

1. Population variability in X-chromosome inactivation across 10 mammalian species.

Author

Werner JM, Hover J, and Gillis J

Subjects

Animals, Female, Humans, Species Specificity, X Chromosome genetics, Male, Mice, Embryonic Stem Cells, Stochastic Processes, Alleles, X Chromosome Inactivation genetics, Mammals genetics

Abstract

One of the two X-chromosomes in female mammals is epigenetically silenced in embryonic stem cells by X-chromosome inactivation. This creates a mosaic of cells expressing either the maternal or the paternal X allele. The X-chromosome inactivation ratio, the proportion of inactivated parental alleles, varies widely among individuals, representing the largest instance of epigenetic variability within mammalian populations. While various contributing factors to X-chromosome inactivation variability are recognized, namely stochastic and/or genetic effects, their relative contributions are poorly understood. This is due in part to limited cross-species analysis, making it difficult to distinguish between generalizable or species-specific mechanisms for X-chromosome inactivation ratio variability. To address this gap, we measure X-chromosome inactivation ratios in ten mammalian species (9531 individual samples), ranging from rodents to primates, and compare the strength of stochastic models or genetic factors for explaining X-chromosome inactivation variability. Our results demonstrate the embryonic stochasticity of X-chromosome inactivation is a general explanatory model for population X-chromosome inactivation variability in mammals, while genetic factors play a minor role., (© 2024. The Author(s).)

Published

2024

2. Exploring the role of grafting in abiotic stress management: Contemporary insights and automation trends.

Author

Razi, Kaukab, Suresh, Preethika, Mahapatra, Pritam Paramguru, Al Murad, Musa, Venkat, Ajila, Notaguchi, Michitaka, Bae, Dong Won, Prakash, Muthu Arjuna Samy, and Muneer, Sowbiya

Subjects

DROUGHT tolerance, PLANT physiology, CROP physiology, GRAFTING (Horticulture), NUTRIENT uptake, ROOTSTOCKS, ABIOTIC stress, PLANT hormones

Abstract

Grafting is a technique that involves attaching a rootstock to the aerial part of another genotype or species (scion), leading to improved crop performance and sustainable growth. The ability to tolerate abiotic stresses depends on cell membrane stability, a reduction in electrolyte leakage, and the species of scion and rootstock chosen. This external mechanism, grafting, serves as a beneficial tool in influencing crop performance by combining nutrient uptake and translocation to shoots, promoting sustainable plant growth, and enhancing the potential yield of both fruit and vegetable crops. Grafting helps to enhance crop production and improve the capacity of plants to utilize water when undergoing abiotic stress, particularly in genotypes that produce high yields upon rootstocks that are capable of decreasing the impact of drought stress on the shoot. The rootstock plays a pivotal role in establishing a grafted plant by forming a union between the graft and the rootstock. This process is characterized by its integrative, reciprocal nature, enabling plants to tolerate abiotic stress conditions. Grafting has been shown to alleviate the overproduction of lipid peroxidation and reactive oxygen species in the leaves and roots and enhance drought tolerance in plants by maintaining antioxidant enzyme activities and stress‐responsive gene expression. Phytohormones, such as cytokinin, auxin, and gibberellin, play a critical role in maintaining rootstock‐scion interactions. This review unveils the role of grafting in mitigating various environmental stressors, establishment of a robust graft junction, physiology of rootstock‐scion communication, the mechanism underlying rootstock influence, hormonal regulations and the utilization of agri‐bots in perfect healing and further cultivation of vegetable crops through grafting. [ABSTRACT FROM AUTHOR]

Published

2024

3. Establishment and maintenance of random monoallelic expression.

Author

Kanata, Eleni, Duffié, Rachel, and Schulz, Edda G.

Subjects

GENE expression, OLFACTORY receptors, X chromosome, REGULATOR genes, GENE families, SYMMETRY breaking

Abstract

This Review elucidates the regulatory principles of random monoallelic expression by focusing on two well-studied examples: the X-chromosome inactivation regulator Xist and the olfactory receptor gene family. Although the choice of a single X chromosome or olfactory receptor occurs in different developmental contexts, common gene regulatory principles guide monoallelic expression in both systems. In both cases, an event breaks the symmetry between genetically and epigenetically identical copies of the gene, leading to the expression of one single random allele, stabilized through negative feedback control. Although many regulatory steps that govern the establishment and maintenance of monoallelic expression have been identified, key pieces of the puzzle are still missing. We provide an overview of the current knowledge and models for the monoallelic expression of Xist and olfactory receptors. We discuss their similarities and differences, and highlight open questions and approaches that could guide the study of other monoallelically expressed genes. [ABSTRACT FROM AUTHOR]

Published

2024

4. X-linked Charcot Marie Tooth mutations alter CO2 sensitivity of connexin32 hemichannels.

Author

Butler, Jack and Dale, Nicholas

Subjects

SCHWANN cells, DENTAL pathology, GENETIC mutation, CARBON dioxide, EXTRACELLULAR space

Abstract

Connexin32 (Cx32) is expressed in myelinating Schwann cells. It forms both reflexive gap junctions, to facilitate transfer of molecules from the outer to the inner myelin layers and hemichannels at the paranode to permit action potential-evoked release of ATP into the extracellular space. Loss of function mutations in Cx32 cause X-linked Charcot Marie Tooth disease (CMTX), a slowly developing peripheral neuropathy. The mechanistic links between Cx32 mutations and CMTX are not well understood. As Cx32 hemichannels can be opened by increases in PCO2, we have examined whether CMTX mutations alter this CO2 sensitivity. By using Ca2+ imaging, dye loading and genetically encoded ATP sensors to measure ATP release, we have found 5 CMTX mutations that abolish the CO2 sensitivity of Cx32 hemichannels (A88D, 111–116 Del, C179Y, E102G, V139M). Others cause a partial loss (L56F, R220Stop, and R15W). Some CMTX mutations have no apparent effect on CO2 sensitivity (R15Q, L9F, G12S, V13L, V84I, W133R). The mutation R15W alters multiple additional aspects of hemichannel function including Ca2+ and ATP permeability. The mutations that abolish CO2 sensitivity are transdominant and abolish CO2 sensitivity of co-expressed Cx32WT. We have shown that Schwannoma RT4 D6P2T cells can release ATP in response to elevated PCO2 via the opening of Cx32. This is consistent with the hypothesis that the CO2 sensitivity of Cx32 may be important for maintenance of healthy myelin. Our data, showing a transdominant effect of certain CMTX mutations on CO2 sensitivity, may need to be taken into account in any future gene therapies for this condition. [ABSTRACT FROM AUTHOR]

Published

2024

5. Chromatin-mediated silencing on the inactive X chromosome.

Author

Keniry, Andrew and Blewitt, Marnie E.

Subjects

X chromosome, CHROMATIN, CHROMOSOMES, GENE silencing

Abstract

In mammals, the second X chromosome in females is silenced to enable dosage compensation between XX females and XY males. This essential process involves the formation of a dense chromatin state on the inactive X (Xi) chromosome. There is a wealth of information about the hallmarks of Xi chromatin and the contribution each makes to silencing, leaving the tantalising possibility of learning from this knowledge to potentially remove silencing to treat X-linked diseases in females. Here, we discuss the role of each chromatin feature in the establishment and maintenance of the silent state, which is of crucial relevance for such a goal. [ABSTRACT FROM AUTHOR]

Published

2023

6. Repli‐seq Sample Preparation using Cell Sorting with Cell‐Permeant Dyes.

Author

Meyer‐Nava, Silvia, Shetty, Anala V., and Rivera‐Mulia, Juan Carlos

Published

2023

7. Half-chromatid mutation as a possible cause of mosaic males and females in Hymenoptera and rare fertile male tortoiseshell cats.

Author

Owen, Robin E.

Abstract

Half-chromatid mutations occur when a single base change in a gamete is transmitted to the zygote, which, after DNA replication and cleavage, will result in a mosaic individual. These mutations will be passed on through the germ plasm and also may be expressed somatically. Half-chromatid mutation has been suggested to account for the observed lower frequency of males than expected for lethal X-linked recessive disorders in humans, such as Lesch–Nyhan syndrome, incontinentia pigmenti, and Duchene muscular dystrophy. Although attention has been paid to half-chromatid mutation in humans, it otherwise has been ignored. Here I show that half-chromatid mutation in haplodiploid organisms, such as Hymenoptera, has some interesting and important consequences: (i) since all genes follow the X-linked pattern of inheritance, half-chromatid mutations should be relatively easier to detect; (ii) recessive mutations of all viabilities may be expected; (iii) mosaics of both sexes are expected in haplodiploids with half-chromatid mutation; (iv) gynandromorphs could result from half-chromatid mutation at the sex-determination locus, in species with single-locus complementary sex-determination. Finally, half-chromatid mutation can account for the rare fertile male tortoiseshell phenotype observed in the domestic cat, Felis catus, and which still has not been fully accounted for by other mechanisms. [ABSTRACT FROM AUTHOR]

Published

2023

8. Genome-Wide Profiling of Endogenous Single-Stranded DNA Using the SSiNGLe-P1 Method.

Author

Xu, Dongyang, Huang, Yu, Luo, Lingcong, Tang, Lu, Lu, Meng, Cao, Huifen, Wang, Fang, Diao, Yong, Lyubchenko, Liudmila, and Kapranov, Philipp

Subjects

MITOCHONDRIAL DNA, DNA replication, SINGLE-stranded DNA, ENDONUCLEASES, GENOMES, MITOCHONDRIA, DIGESTION

Abstract

Endogenous single-stranded DNA (essDNA) can form in a mammalian genome as the result of a variety of molecular processes and can both play important roles inside the cell as well as have detrimental consequences to genome integrity, much of which remains to be fully understood. Here, we established the SSiNGLe-P1 approach based on limited digestion by P1 endonuclease for high-throughput genome-wide identification of essDNA regions. We applied this method to profile essDNA in both human mitochondrial and nuclear genomes. In the mitochondrial genome, the profiles of essDNA provide new evidence to support the strand-displacement model of mitochondrial DNA replication. In the nuclear genome, essDNA regions were found to be enriched in certain types of functional genomic elements, particularly, the origins of DNA replication, R-loops, and to a lesser degree, in promoters. Furthermore, interestingly, many of the essDNA regions identified by SSiNGLe-P1 have not been annotated and thus could represent yet unknown functional elements. [ABSTRACT FROM AUTHOR]

Published

2023

9. Assisted Reproduction and Discussion of Rare Cases in Monozygotic Twinning.

Author

Tan, Yuge

Subjects

MONOZYGOTIC twins, MULTIPLE pregnancy, PREGNANCY outcomes, REPRODUCTIVE technology, TRIPLETS

Abstract

Assisted reproductive technology is a crucial factor that increases the incidence of monozygotic twinning in humans. This article discusses the impact of various indicators in assisted reproductive technology studies on pregnancy outcomes, especially studies with a large number of clinical cases. Furthermore, three rare cases in multiples pregnancy are discussed: fetus papyraceous of a pair of male monozygotic twins in a set of triplets, two pairs of sesquizygotic twins with sex-discordance, and rare conjoined triplets. [ABSTRACT FROM AUTHOR]

Published

2023

10. Aging clocks based on accumulating stochastic variation.

Author

Meyer DH and Schumacher B

Subjects

Humans, Biological Clocks physiology, Biological Clocks genetics, Caloric Restriction, Animals, Parabiosis, Smoking, Computer Simulation, Models, Biological, Transcriptome, Male, Aging physiology, Aging genetics, Stochastic Processes, DNA Methylation

Abstract

Aging clocks have provided one of the most important recent breakthroughs in the biology of aging, and may provide indicators for the effectiveness of interventions in the aging process and preventive treatments for age-related diseases. The reproducibility of accurate aging clocks has reinvigorated the debate on whether a programmed process underlies aging. Here we show that accumulating stochastic variation in purely simulated data is sufficient to build aging clocks, and that first-generation and second-generation aging clocks are compatible with the accumulation of stochastic variation in DNA methylation or transcriptomic data. We find that accumulating stochastic variation is sufficient to predict chronological and biological age, indicated by significant prediction differences in smoking, calorie restriction, heterochronic parabiosis and partial reprogramming. Although our simulations may not explicitly rule out a programmed aging process, our results suggest that stochastically accumulating changes in any set of data that have a ground state at age zero are sufficient for generating aging clocks., (© 2024. The Author(s).)

Published

2024

11. Molecular pathogenesis of a novel Met394Thr variant causing hemophilia B.

Author

Lu, Linna, Wang, Lingyu, Shen, Wukang, Fang, Shuai, Zhao, Lidong, Hu, Xuchen, Yang, Linhua, and Wang, Gang

Subjects

BLOOD coagulation factor IX, HEMOPHILIA, MISSENSE mutation, BLOOD coagulation factor XIII, BLOOD coagulation factors, PATHOGENESIS, MOTHERS

Abstract

Background: Hemophilia B (HB), a rare bleeding disorder, shows X‐linked recessive inheritance and is caused by heterogeneous variants in the FIX gene (F9) encoding coagulation factor IX (FIX). This study aimed to investigate the molecular pathogenesis of a novel Met394Thr variant causing HB. Methods: We used Sanger sequencing to analyze F9 sequence variants in members of a Chinese family with moderate HB. Subsequently, we performed in vitro experiments on the identified novel FIX‐Met394Thr variant. In addition, we performed bioinformatics analysis of the novel variant. Results: We identified a novel missense variant (c.1181T>C, p.Met394Thr) in a Chinese family with moderate HB in the proband. The proband's mother and grandmother were carriers for the variant. The identified FIX‐Met394Thr variant did not affect the transcription of F9 and the synthesis and secretion of FIX protein. The variant may, therefore, affect the physiological function of FIX protein by disrupting its spatial conformation. In addition, another variant (c.88+75A>G) in intron 1 of F9 was identified in the grandmother, which may also affect FIX protein function. Conclusion: We identified FIX‐Met394Thr as a novel causative variant of HB. Further understanding of the molecular pathogenesis underlying FIX deficiency may guide novel strategies for precision HB therapy. [ABSTRACT FROM AUTHOR]

Published

2023

12. Development and Characterization of Microsatellite Markers for Harpadon nehereus Based on High-Throughput Sequencing and Cross-Species Amplification in Three Myctophiformes Fishes.

Author

Huang, Xinxin, Ning, Zijun, and Yang, Tianyan

Abstract

Harpadon nehereus is a widespread economical fish found in the coastal seas of China and has important ecological value in the marine ecosystem. However, its germplasm resources have been seriously degraded due to natural factors and anthropogenic activities. In this study, high-throughput sequencing was applied to search for microsatellite loci in H. nehereus transcriptome to provide references for its resource conservation and utilization. Polymorphic loci were developed by non-denaturing polyacrylamide gel electrophoresis, and their cross-species amplified ability was detected in three related species. A total of 5652 microsatellites were identified from 16974320 unigenes. Among the primer pairs designed for 100 SSRs for PCR amplification, 80% were successfully amplified, and 26 loci were polymorphic with a high number of alleles from 3 to 11 each. The expected (He) and observed (Ho) heterozygosities were 0.355–0.885 and 0.375–0.958, respectively. Most of the loci were highly polymorphic (polymorphism information content: 0.316–0.852; mean: 0.713), and these markers can be applied in the population genetic diversity research of H. nehereus. However, the transferability of these primers was low, probably because of the close relation of the collected species. In follow-up work, simple sequence repeats will be excavated with genome-based technologies, and related species will be gathered to address the present inadequacies. [ABSTRACT FROM AUTHOR]

Published

2023

13. Is Human Aging a Form of Phenoptosis?

Author

Libertini, Giacinto, Corbi, Graziamaria, Shubernetskaya, Olga, and Ferrara, Nicola

Subjects

AGING, NATURAL selection, HETEROCHROMATIN

Abstract

A much debated question is whether aging is the cumulative consequence of degenerative factors insufficiently opposed by natural selection, or, on the contrary, an ordered process, genetically determined and regulated, modeled by natural selection, and for which the definition of phenoptotic phenomenon would be entirely appropriate. In this review, theoretical arguments and empirical data about the two hypotheses are exposed, with more evidence in support of the thesis of aging as a form of phenoptosis. However, as the thesis of aging as an adaptive and programmed phenomenon necessarily requires the existence of specific mechanisms that determine to age, such as the subtelomere–telomere theory proposed for this purpose, the evidence supporting the mechanisms described by this theory is reported. In particular, it is highlighted that the recent interpretation of the role of TERRA sequences in the context of subtelomere–telomere theory is a fundamental point in supporting the hypothesized mechanisms. Furthermore, some characteristics of the mechanisms proposed by the theory, such as epigenetic modifications in aging, gradual cell senescence, cell senescence, limits in cell duplications, and fixed size of the telomeric heterochromatin hood, are exposed in their compatibility with both the thesis of aging as phenoptotic phenomenon and the opposite thesis. In short, aging as a form of phenoptosis appears a scientifically sound hypothesis while the opposite thesis should clarify the meaning of various phenomena that appear to invalidate it. [ABSTRACT FROM AUTHOR]

Published

2022

14. The Effect of PIS Region on Horned or Polled Phenotype Traits in China Guanzhong Dairy Goats.

Author

Zilu Zhang, Ning Wang, Ce Hou, Shafique, Laiba, ur Rehman, Saif, Zhuyue Wu, Zhiqiang Wang, Mingsong Wei, and Kuiqing Cui

Abstract

Studies have reported goat Polled Intersex Syndrome(PIS) a 11.7-kb deletion triggers intersexuality and polledness in goats. To determine the effect of PIS region on horned phenotype of Guanzhong dairy goats, four specific primers (PIS1-1, PIS1-2, PIS2 and PIS3) covering PIS fragment were designed, and four DNA fragment were amplifed and sequenced. A 12.814kb sequence was assembled containing the whole goat PIS region both in horned goats and in polled goats, which mean there were no 11.7 kb deletion in the Guanzhong dairy goats.The polymorphisms sites in PIS region of horned and polled Guanzhong dairy goats were identified, and a total of 30 polymorphisms sites were confirmed (A648T, T652C, G1107C, T2594C, G2820A, G3556A, A3573G, T3621C, A5329T, T5392G, G5878A, C5996T, A6187G, C6228A, G6969T, G7045T, T7057C, C7266G, C7417T, T8327G, T9029G, C10034A, A10846G, del 10861-10862TT, G11842A, G12157A, G12104A, del 12431-12432AT, G12665A and del 12771-12772TT) in the 12.814 kb sequence. The further annotation results showed that a tRNA was located at 4218-4290bp, STR1 (TGTGTGTGTGTG) and STR2 (ATATATATATAT) were located at 9473-9484bp and 12451- 12462bp, respectively. Three micro RNAs, dme-mir-1, dme-mir-263a and cbr-mir-354 were confermed to locate at 3002-3023bp, 9078-9094bp and 10866-10882bp, respectively. There is a CpG island at 4390- 4540 bp. Our results showed that the PIS regions have no effect on polled phenotype of Guanzhong dairy goat, genetic diversity in PIS region of the goat were identified and the key gene polymorphism sites still waiting to be determined. [ABSTRACT FROM AUTHOR]

Published

2022

15. Causality in transcription and genome folding: Insights from X inactivation.

Author

Bauer, Moritz, Payer, Bernhard, and Filion, Guillaume J.

Subjects

X chromosome, TRANSGENIC organisms

Abstract

The spatial organization of genomes is becoming increasingly understood. In mammals, where it is most investigated, this organization ties in with transcription, so an important research objective is to understand whether gene activity is a cause or a consequence of genome folding in space. In this regard, the phenomena of X‐chromosome inactivation and reactivation open a unique window of investigation because of the singularities of the inactive X chromosome. Here we focus on the cause–consequence nexus between genome conformation and transcription and explain how recent results about the structural changes associated with inactivation and reactivation of the X chromosome shed light on this problem. [ABSTRACT FROM AUTHOR]

Published

2022

16. Genetic and Epigenetic Interplay Define Disease Onset and Severity in Repeat Diseases.

Author

Barbé, Lise and Finkbeiner, Steve

Subjects

GENETICS, SEVERITY of illness index, AGE factors in disease, FRAGILE X syndrome, EPIGENOMICS

Abstract

Repeat diseases, such as fragile X syndrome, myotonic dystrophy, Friedreich ataxia, Huntington disease, spinocerebellar ataxias, and some forms of amyotrophic lateral sclerosis, are caused by repetitive DNA sequences that are expanded in affected individuals. The age at which an individual begins to experience symptoms, and the severity of disease, are partially determined by the size of the repeat. However, the epigenetic state of the area in and around the repeat also plays an important role in determining the age of disease onset and the rate of disease progression. Many repeat diseases share a common epigenetic pattern of increased methylation at CpG islands near the repeat region. CpG islands are CG-rich sequences that are tightly regulated by methylation and are often found at gene enhancer or insulator elements in the genome. Methylation of CpG islands can inhibit binding of the transcriptional regulator CTCF, resulting in a closed chromatin state and gene down regulation. The downregulation of these genes leads to some disease-specific symptoms. Additionally, a genetic and epigenetic interplay is suggested by an effect of methylation on repeat instability, a hallmark of large repeat expansions that leads to increasing disease severity in successive generations. In this review, we will discuss the common epigenetic patterns shared across repeat diseases, how the genetics and epigenetics interact, and how this could be involved in disease manifestation. We also discuss the currently available stem cell and mouse models, which frequently do not recapitulate epigenetic patterns observed in human disease, and propose alternative strategies to study the role of epigenetics in repeat diseases. [ABSTRACT FROM AUTHOR]

Published

2022

17. RNA-binding FMRP and Staufen sequentially regulate the Coracle scaffold to control synaptic glutamate receptor and bouton development.

Author

Chunzhu Song, Leahy, Shannon N., Rushton, Emma M., and Broadie, Kendal

Subjects

GLUTAMATE receptors, MYONEURAL junction, RNA-binding proteins, FRAGILE X syndrome, INTELLECTUAL disabilities, NEURAL transmission

Abstract

Both mRNA-binding Fragile X mental retardation protein (FMRP; Fmr1) and mRNA-binding Staufen regulate synaptic bouton formation and glutamate receptor (GluR) levels at the Drosophila neuromuscular junction (NMJ) glutamatergic synapse. Here, we tested whether these RNA-binding proteins act jointly in a common mechanism. We found that both dfmr1 and staufen mutants, and trans-heterozygous double mutants, displayed increased synaptic bouton formation and GluRIIA accumulation. With cell-targeted RNA interference, we showed a downstream Staufen role within postsynaptic muscle. With immunoprecipitation, we showed that FMRP binds staufen mRNA to stabilize postsynaptic transcripts. Staufen is known to target actinbinding, GluRIIA anchor Coracle, and we confirmed that Staufen binds to coracle mRNA. We found that FMRP and Staufen act sequentially to co-regulate postsynaptic Coracle expression, and showed that Coracle, in turn, controls GluRIIA levels and synaptic bouton development. Consistently, we found that dfmr1, staufen and coracle mutants elevate neurotransmission strength. We also identified that FMRP, Staufen and Coracle all suppress pMad activation, providing a trans-synaptic signaling linkage between postsynaptic GluRIIA levels and presynaptic bouton development. This work supports an FMRP– Staufen–Coracle–GluRIIA–pMad pathway regulating structural and functional synapse development. [ABSTRACT FROM AUTHOR]

Published

2022

18. 瓦氏黄颡鱼全基因组微卫星的分布特征及其定位的初步研究.

Author

彭 冶, 李 杰, 王 涛, 张 凯, 宁先会, 暨 杰, and 尹绍武

Subjects

MICROSATELLITE repeats, DINUCLEOTIDES, BIOSYNTHESIS, GENOMES, FLAVONOIDS

Abstract

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

Published

2022

19. Epigenetic inheritance is unfaithful at intermediately methylated CpG sites.

Author

Hay AD, Kessler NJ, Gebert D, Takahashi N, Tavares H, Teixeira FK, and Ferguson-Smith AC

Subjects

Base Sequence, Cell Line, Epigenesis, Genetic, Nucleotides, DNA Methylation

Abstract

DNA methylation at the CpG dinucleotide is considered a stable epigenetic mark due to its presumed long-term inheritance through clonal expansion. Here, we perform high-throughput bisulfite sequencing on clonally derived somatic cell lines to quantitatively measure methylation inheritance at the nucleotide level. We find that although DNA methylation is generally faithfully maintained at hypo- and hypermethylated sites, this is not the case at intermediately methylated CpGs. Low fidelity intermediate methylation is interspersed throughout the genome and within genes with no or low transcriptional activity, and is not coordinately maintained between neighbouring sites. We determine that the probabilistic changes that occur at intermediately methylated sites are likely due to DNMT1 rather than DNMT3A/3B activity. The observed lack of clonal inheritance at intermediately methylated sites challenges the current epigenetic inheritance model and has direct implications for both the functional relevance and general interpretability of DNA methylation as a stable epigenetic mark., (© 2023. Springer Nature Limited.)

Published

2023

20. Gene regulation in time and space during X-chromosome inactivation.

Author

Loda A, Collombet S, and Heard E

Subjects

Female, Gene Silencing, Humans, Male, X Chromosome genetics, X Chromosome Inactivation genetics, Epigenesis, Genetic genetics, RNA, Long Noncoding genetics

Abstract

X-chromosome inactivation (XCI) is the epigenetic mechanism that ensures X-linked dosage compensation between cells of females (XX karyotype) and males (XY). XCI is essential for female embryos to survive through development and requires the accurate spatiotemporal regulation of many different factors to achieve remarkable chromosome-wide gene silencing. As a result of XCI, the active and inactive X chromosomes are functionally and structurally different, with the inactive X chromosome undergoing a major conformational reorganization within the nucleus. In this Review, we discuss the multiple layers of genetic and epigenetic regulation that underlie initiation of XCI during development and then maintain it throughout life, in light of the most recent findings in this rapidly advancing field. We discuss exciting new insights into the regulation of X inactive-specific transcript (XIST), the trigger and master regulator of XCI, and into the mechanisms and dynamics that underlie the silencing of nearly all X-linked genes. Finally, given the increasing interest in understanding the impact of chromosome organization on gene regulation, we provide an overview of the factors that are thought to reshape the 3D structure of the inactive X chromosome and of the relevance of such structural changes for XCI establishment and maintenance., (© 2022. Springer Nature Limited.)

Published

2022

21. Xist spatially amplifies SHARP/SPEN recruitment to balance chromosome-wide silencing and specificity to the X chromosome.

Author

Jachowicz JW, Strehle M, Banerjee AK, Blanco MR, Thai J, and Guttman M

Subjects

Animals, Female, Gene Silencing, Male, Mammals genetics, X Chromosome genetics, X Chromosome metabolism, X Chromosome Inactivation, RNA, Long Noncoding genetics, RNA, Long Noncoding metabolism

Abstract

Although thousands of long non-coding RNAs (lncRNAs) are encoded in mammalian genomes, their mechanisms of action are poorly understood, in part because they are often expressed at lower levels than their proposed targets. One such lncRNA is Xist, which mediates chromosome-wide gene silencing on one of the two X chromosomes (X) to achieve gene expression balance between males and females. How a limited number of Xist molecules can mediate robust silencing of a much larger number of target genes while maintaining specificity exclusively to genes on the X within each cell is not well understood. Here, we show that Xist drives non-stoichiometric recruitment of the essential silencing protein SHARP (also known as SPEN) to amplify its abundance across the inactive X, including at regions not directly occupied by Xist. This amplification is achieved through concentration-dependent homotypic assemblies of SHARP on the X and is required for chromosome-wide silencing. Expression of Xist at higher levels leads to increased localization at autosomal regions, demonstrating that low levels of Xist are critical for ensuring its specificity to the X. We show that Xist (through SHARP) acts to suppress production of its own RNA which may act to constrain overall RNA levels and restrict its ability to spread beyond the X. Together, our results demonstrate a spatial amplification mechanism that allows Xist to achieve two essential but countervailing regulatory objectives: chromosome-wide gene silencing and specificity to the X. This suggests a more general mechanism by which other low-abundance lncRNAs could balance specificity to, and robust control of, their regulatory targets., (© 2022. The Author(s), under exclusive licence to Springer Nature America, Inc.)

Published

2022

22. Female Germ Cell Development in Chickens and Humans: The Chicken Oocyte Enriched Genes Convergent and Divergent with the Human Oocyte.

Author

Rengaraj, Deivendran and Han, Jae Yong

Subjects

GERM cells, MEIOSIS, OVUM, CHICKENS, GRANULOSA cells, GENES

Abstract

The development of germ cells and other physiological events in the differentiated ovary of humans are highly conserved with several mammalian species, except for the differences in timing. However, comparative knowledge on this topic is very scarce with respect to humans and lower vertebrates, such as chickens. In chickens, female germ cells enter into meiosis around embryonic day (E) 15.5 and are arrested in meiotic prophase I as primary oocytes. The oocytes arrested in meiosis I are accumulated in germ-cell cysts; shortly after hatching, they are enclosed by flattened granulosa cells in order to form primordial follicles. In humans, the process of meiotic recombination in female germ cells begins in the 10–11th week of gestation, and primordial follicles are formed at around week 20. In this review, we comprehensively elucidate both the conservation and the species-specific differences between chickens and humans with respect to germ cell, oocyte, and follicle development. Importantly, we provide functional insights into a set of chicken oocyte enriched genes (from E16 to 1 week post-hatch) that show convergent and divergent expression patterns with respect to the human oocyte (from week 11 to 26). [ABSTRACT FROM AUTHOR]

Published

2022

23. Probabilistic inference of epigenetic age acceleration from cellular dynamics

Author

Dabrowski, Jan K., Yang, Emma J., Crofts, Samuel J. C., Hillary, Robert F., Simpson, Daniel J., McCartney, Daniel L., Marioni, Riccardo E., Kirschner, Kristina, Latorre-Crespo, Eric, and Chandra, Tamir

Published

2024

24. The evolutionary theory of cancer: challenges and potential solutions

Author

Laplane, Lucie and Maley, Carlo C.

Published

2024

25. The two sides of chromosomal instability: drivers and brakes in cancer

Author

Hosea, Rendy, Hillary, Sharon, Naqvi, Sumera, Wu, Shourong, and Kasim, Vivi

Published

2024

26. Clonal tracking in cancer and metastasis

Author

Aalam, Syed Mohammed Musheer, Nguyen, Long Viet, Ritting, Megan L., and Kannan, Nagarajan

Published

2024

27. No todo vale : ¿Qué hace un científico hablando de ética?

Author

Lluís Montoliu and Lluís Montoliu

Abstract

¿Podemos clonar seres humanos para contar con órganos de repuesto? ¿Utilizarán nuestro ADN para clasificarnos y determinar nuestro futuro? ¿Se experimentan las nuevas técnicas biomédicas en humanos sin su consentimiento? Si te haces estas preguntas es probable que hayas visto o leído mucha ciencia ficción. Y en este género los científicos suelen hacer lo que les da la gana o lo que el malo de turno les ordena. En la vida real, no. A pesar de lo que digan algunos alarmistas. En la vida real existen normas que deben acatarse. En este libro el doctor Lluís Montoliu deja claro que tener la capacidad tecnológica y científica de hacer algo no significa que deba hacerse o que se permita. Porque en la biomedicina, no todo vale.

Published

2024

28. Human Gene Evolution

Author

David Cooper and David Cooper

Abstract

The story of our evolutionary past is told in our genome sequence. Human Gene Evolution deals with the origins of human genes, describes their structure, function, organisation and expression. The text integrates our emerging knowledge of chromosome and genome structure, and discusses the nature of the mutational mechanisms underlying evolutionary change.

Published

2024

29. Transformation of Human Diploid Fibroblasts : Molecular and Genetic Mechanisms

Author

George E. Milo, Bruce C. Casto, George E. Milo, and Bruce C. Casto

Subjects

Carcinogenesis, Fibroblasts, Cell transformation, Cell Transformation, Neoplastic

Abstract

This comprehensive publication draws together the important aspects of carcinogen-cell interaction. This interesting work describes the regulation of normal cell proliferation, cellular responses to carcinogen damage, the biologic consequences of cellular DNA modification, the structural and genomic changes resulting from carcinogen insult, and the possible involvement of such changes in the conversion of normal human fibroblasts to malignant cells. It presents current reviews with up-to-date literature references and provides critical information from leading investigators that is essential in understanding the biology of human cell transformation. This volume is especially useful to advanced students in genetic toxicology, molecular biologists, and all who are interested in the molecular and macromolecular changes in human cells leading to neoplasia.

Published

2024

30. DNA methylation rates scale with maximum lifespan across mammals

Author

Crofts, Samuel J. C., Latorre-Crespo, Eric, and Chandra, Tamir

Published

2024

31. Animal Cell Culture: Principles and Practice

Author

Shalini Mani, Manisha Singh, Anil Kumar, Shalini Mani, Manisha Singh, and Anil Kumar

Subjects

Cell culture--Laboratory manuals

Abstract

This introductory guide provides novice researchers and lab students with a thorough step-by-step approach to standard animal cell culture techniques. Coverage includes lab safety and best practices, sterility management, preparation, ethical considerations, and troubleshooting for common pain points. This is an up-to-date, indispensable handbook for early-career researchers and students, as well as established scientists in biotechnology, cell and developmental biology, pharmaceutical toxicology, cytogenetics, and more.

Published

2023

32. Epigenetic control of chromosome-associated lncRNA genes essential for replication and stability

Author

Heskett, Michael B., Vouzas, Athanasios E., Smith, Leslie G., Yates, Phillip A., Boniface, Christopher, Bouhassira, Eric E., Spellman, Paul T., Gilbert, David M., and Thayer, Mathew J.

Published

2022

33. Mammalian X-chromosome inactivation: proposed role in suppression of the male programme in genetic females

Author

CHANDRA, H. SHARAT

Published

2022