R. Patel scite author profile

Chromosome 6 is a metacentric chromosome that constitutes about 6% of the human genome. The finished sequence comprises 166,880,988 base pairs, representing the largest chromosome sequenced so far. The entire sequence has been subjected to high-quality manual annotation, resulting in the evidence-supported identification of 1,557 genes and 633 pseudogenes. Here we report that at least 96% of the protein-coding genes have been identified, as assessed by multi-species comparative sequence analysis, and provide evidence for the presence of further, otherwise unsupported exons/genes. Among these are genes directly implicated in cancer, schizophrenia, autoimmunity and many other diseases. Chromosome 6 harbours the largest transfer RNA gene cluster in the genome; we show that this cluster co-localizes with a region of high transcriptional activity. Within the essential immune loci of the major histocompatibility complex, we find HLA-B to be the most polymorphic gene on chromosome 6 and in the human genome.

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Retrotransposons Are the Major Contributors to the Expansion of theDrosophila ananassaeMuller F Element

Leung

Shaffer

Chen

et al. 2017

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The discordance between genome size and the complexity of eukaryotes can partly be attributed to differences in repeat density. The Muller F element (∼5.2 Mb) is the smallest chromosome in Drosophila melanogaster, but it is substantially larger (>18.7 Mb) in D. ananassae. To identify the major contributors to the expansion of the F element and to assess their impact, we improved the genome sequence and annotated the genes in a 1.4-Mb region of the D. ananassae F element, and a 1.7-Mb region from the D element for comparison. We find that transposons (particularly LTR and LINE retrotransposons) are major contributors to this expansion (78.6%), while Wolbachia sequences integrated into the D. ananassae genome are minor contributors (0.02%). Both D. melanogaster and D. ananassae F-element genes exhibit distinct characteristics compared to D-element genes (e.g., larger coding spans, larger introns, more coding exons, and lower codon bias), but these differences are exaggerated in D. ananassae. Compared to D. melanogaster, the codon bias observed in D. ananassae F-element genes can primarily be attributed to mutational biases instead of selection. The 5′ ends of F-element genes in both species are enriched in dimethylation of lysine 4 on histone 3 (H3K4me2), while the coding spans are enriched in H3K9me2. Despite differences in repeat density and gene characteristics, D. ananassae F-element genes show a similar range of expression levels compared to genes in euchromatic domains. This study improves our understanding of how transposons can affect genome size and how genes can function within highly repetitive domains.

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Vitamin D Receptor Signaling of Monocytic Differentiation in Human Leukemia Cells: Role of MAPK Pathways in Transcription Factor Activation

Studzinski¹,

Garay²,

Patel³

et al. 2006

CTMC

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Among the many important physiological functions of the activated vitamin D receptor (VDR) is the signaling of monocytic differentiation, first demonstrated by conversion of malignant myeloid leukemia cells to nonproliferating cells with mature monocyte/macrophage appearance. However, the understanding of how 1, 25-dihydroxyvitamin D3 (1,25D) signals monocytic differentiation is still developing. Recent advances summarized here include the role of the principal "mitogen-activated protein kinase" (MAPK) pathways, their potential downstream target the CCAAT/enhancer binding protein beta (C/EBP beta), cell cycle related proteins, and cyclin-dependent kinase 5 (Cdk5) in 1,25D-induced differentiation. The precise steps by which activated VDR signals differentiation are incompletely understood in any of the cell types known to respond to 1,25D. We have focused our studies on HL60 cells, a widely available cell line derived from a patient with promyeloblastic leukemia, with the goal of achieving as clear a picture as possible with the currently available tools. In this model, outlined in Fig. 1, a plausible sequence of events is presented, with the caveats that these are not the only pathways activated by liganded VDR, and that several other pathways, also operative, remain to be convincingly demonstrated. The details of the scheme will be discussed in the sections below.

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RAB11A-mediated YAP localization to adherens and tight junctions is essential for colonic epithelial integrity

Goswami

Balasubramanian

D’Agostino

et al. 2021

Journal of Biological Chemistry

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Within the intestinal epithelium, regulation of intracellular protein and vesicular trafficking is of utmost importance for barrier maintenance, immune responses, and tissue polarity. RAB11A is a small GTPase that mediates the anterograde transport of protein cargos to the plasma membrane. Loss of RAB11A-dependent trafficking in mature intestinal epithelial cells results in increased epithelial proliferation and nuclear accumulation of Yes-associated protein (YAP), a key Hippo-signaling transducer that senses cell–cell contacts and regulates tissue growth. However, it is unclear how RAB11A regulates YAP intracellular localizations. In this report, we examined the relationship of RAB11A to epithelial junctional complexes, YAP, and the associated consequences on colonic epithelial tissue repair. We found that RAB11A controls the biochemical associations of YAP with multiple components of adherens and tight junctions, including α-catenin, β-catenin, and Merlin, a tumor suppressor. In the absence of RAB11A and Merlin, we observed enhanced YAP–β-catenin complex formation and nuclear translocation. Upon chemical injury to the intestine, mice deficient in RAB11A were found to have reduced epithelial integrity, decreased YAP localization to adherens and tight junctions, and increased nuclear YAP accumulation in the colon epithelium. Thus, RAB11A-regulated trafficking regulates the Hippo–YAP signaling pathway for rapid reparative response after tissue injury.

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Transposon Extermination Reveals Their Adaptive Fitness Contribution

Cranz-Mileva

Reilly

Chalhoub

et al. 2021

Preprint

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Transposable Elements are molecular parasites that persist in their host genome by generating new copies to outpace natural selection. Here we measure the parameters governing the copy number dynamics of the fission yeast Tf2 retrotransposons, using experimental and natural populations and a strain where all Tf2 copies are removed. Natural population genomes display active and persistent Tf2 colonies, but in the absence of selection mitotic recombination deletes Tf2 elements at rates that far exceed transposition. We show that Tf2 elements provide a fitness contribution to their host by dynamically rewiring the transcriptional response to metabolic stress. Therefore, Tf2 elements exhibit a mutualistic rather than parasitic behavior toward their host.

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R. Patel

The DNA sequence and analysis of human chromosome 6

Retrotransposons Are the Major Contributors to the Expansion of theDrosophila ananassaeMuller F Element

Vitamin D Receptor Signaling of Monocytic Differentiation in Human Leukemia Cells: Role of MAPK Pathways in Transcription Factor Activation

RAB11A-mediated YAP localization to adherens and tight junctions is essential for colonic epithelial integrity

Transposon Extermination Reveals Their Adaptive Fitness Contribution

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