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Full-Text Articles in Molecular Biology
Alignment Of Mitotic Chromosomes In Human Cells Involves Sr-Like Splicing Factors Btf And Trap150, Sapna Varia, Divya Cheedu, Michael P. Markey, Keshia Torres-Shafer, Vishnu P. Battini, Athanasios Bubulya, Paula A. Bubulya
Alignment Of Mitotic Chromosomes In Human Cells Involves Sr-Like Splicing Factors Btf And Trap150, Sapna Varia, Divya Cheedu, Michael P. Markey, Keshia Torres-Shafer, Vishnu P. Battini, Athanasios Bubulya, Paula A. Bubulya
Biochemistry and Molecular Biology Faculty Publications
Serine-arginine-rich (SR) or SR-like splicing factors interact with exon junction complex proteins during pre-mRNA processing to promote mRNA packaging into mature messenger ribonucleoproteins (mRNPs) and to dictate mRNA stability, nuclear export, and translation. The SR protein family is complex, and while many classical SR proteins have well-defined mRNA processing functions, those of other SR-like proteins is unclear. Here, we show that depletion of the homologous non-classical serine-arginine-rich (SR) splicing factors Bcl2-associated transcription factor (Btf or BCLAF) and thyroid hormone receptor-associated protein of 150 kDa (TRAP150) causes mitotic defects. We hypothesized that the depletion of these SR-like factors affects mitosis indirectly …
Identification Of Cell Cycle–Regulated Genes Periodically Expressed In U2os Cells And Their Regulation By Foxm1 And E2f Transcription Factors, Gavin D. Grant, Lionel Brooks Iii, Xiaoyang Zhang, J. Matthew Mahoney, Viktor Martyanov, Tammara A. Wood, Gavin Sherlock, Chao Cheng, Michael L. Whitfield
Identification Of Cell Cycle–Regulated Genes Periodically Expressed In U2os Cells And Their Regulation By Foxm1 And E2f Transcription Factors, Gavin D. Grant, Lionel Brooks Iii, Xiaoyang Zhang, J. Matthew Mahoney, Viktor Martyanov, Tammara A. Wood, Gavin Sherlock, Chao Cheng, Michael L. Whitfield
Dartmouth Scholarship
We identify the cell cycle–regulated mRNA transcripts genome-wide in the osteosarcoma-derived U2OS cell line. This results in 2140 transcripts mapping to 1871 unique cell cycle–regulated genes that show periodic oscillations across multiple synchronous cell cycles. We identify genomic loci bound by the G2/M transcription factor FOXM1 by chromatin immunoprecipitation followed by high-throughput sequencing (ChIP-seq) and associate these with cell cycle–regulated genes. FOXM1 is bound to cell cycle–regulated genes with peak expression in both S phase and G2/M phases. We show that ChIP-seq genomic loci are responsive to FOXM1 using a real-time luciferase assay in live cells, showing that FOXM1 strongly …
Live-Cell Monitoring Of Periodic Gene Expression In Synchronous Human Cells Identifies Forkhead Genes Involved In Cell Cycle Control, Gavin D. Grant, Joshua Gamsby, Viktor Martyanov, Lionel Brooks, Lacy K. George, J. Matthew Mahoney, Jennifer J. Loros, Jay C. Dunlap, Michael L. Whitfield
Live-Cell Monitoring Of Periodic Gene Expression In Synchronous Human Cells Identifies Forkhead Genes Involved In Cell Cycle Control, Gavin D. Grant, Joshua Gamsby, Viktor Martyanov, Lionel Brooks, Lacy K. George, J. Matthew Mahoney, Jennifer J. Loros, Jay C. Dunlap, Michael L. Whitfield
Dartmouth Scholarship
We developed a system to monitor periodic luciferase activity from cell cycle-regulated promoters in synchronous cells. Reporters were driven by a minimal human E2F1 promoter with peak expression in G1/S or a basal promoter with six Forkhead DNA-binding sites with peak expression at G2/M. After cell cycle synchronization, luciferase activity was measured in live cells at 10-min intervals across three to four synchronous cell cycles, allowing unprecedented resolution of cell cycle-regulated gene expression. We used this assay to screen Forkhead transcription factors for control of periodic gene expression. We confirmed a role for FOXM1 and identified two novel cell cycle …
Identification Of New Cell Size Control Genes In S. Cerevisiae, Huzefa Dungrawala, Hui Hua, Jill Wright, Lesley Abraham, Thivakorn Kasemsri, Anthony Mcdowell, Jessica Stilwell, Brandt L. Schneider
Identification Of New Cell Size Control Genes In S. Cerevisiae, Huzefa Dungrawala, Hui Hua, Jill Wright, Lesley Abraham, Thivakorn Kasemsri, Anthony Mcdowell, Jessica Stilwell, Brandt L. Schneider
Molecular Biosciences Faculty Publications
Cell size homeostasis is a conserved attribute in many eukaryotic species involving a tight regulation between the processes of growth and proliferation. In budding yeast S. cerevisiae, growth to a “critical cell size” must be achieved before a cell can progress past START and commit to cell division. Numerous studies have shown that progression past START is actively regulated by cell size control genes, many of which have implications in cell cycle control and cancer. Two initial screens identified genes that strongly modulate cell size in yeast. Since a second generation yeast gene knockout collection has been generated, we screened …
Agswe1p Regulates Mitosis In Response To Morphogenesis And Nutrients In Multinucleated Ashbya Gossypii Cells, Hanspeter Helfer, Amy S. Gladfelter
Agswe1p Regulates Mitosis In Response To Morphogenesis And Nutrients In Multinucleated Ashbya Gossypii Cells, Hanspeter Helfer, Amy S. Gladfelter
Dartmouth Scholarship
Nuclei in the filamentous, multinucleated fungus Ashbya gossypii divide asynchronously. We have investigated what internal and external signals spatially direct mitosis within these hyphal cells. Mitoses are most common near cortical septin rings found at growing tips and branchpoints. In septin mutants, mitoses are no longer concentrated at branchpoints, suggesting that the septin rings function to locally promote mitosis near new branches. Similarly, cells lacking AgSwe1p kinase (a Wee1 homologue), AgHsl1p (a Nim1-related kinase), and AgMih1p phosphatase (the Cdc25 homologue that likely counteracts AgSwe1p activity) also have mitoses distributed randomly in the hyphae as opposed to at branchpoints. Surprisingly, however, …
Direct Control Of Cell Cycle Gene Expression By Proto-Oncogene Product Actr, And Its Autoregulation Underlies Its Transforming Activity, Maggie C. Louie, Alexey S. Revenko, June X. Zou, Jennifer Yao, Hong-Wu Chen
Direct Control Of Cell Cycle Gene Expression By Proto-Oncogene Product Actr, And Its Autoregulation Underlies Its Transforming Activity, Maggie C. Louie, Alexey S. Revenko, June X. Zou, Jennifer Yao, Hong-Wu Chen
Collected Faculty and Staff Scholarship
ACTR (also called AIB1 and SRC-3) was identified as a coactivator for nuclear receptors and is linked to multiple types of human cancer due to its frequent overexpression. However, the molecular mechanism of ACTR oncogenicity and its function independent of nuclear receptors remain to be defined. We demonstrate here that ACTR is required for both normal and malignant human cells to effectively enter S phase. RNA interference-mediated depletion and chromatin immunoprecipitation assays show that endogenous ACTR directly controls the expression of genes important for initiation of DNA replication, which include cdc6, cdc25A, MCM7, cyclin E, and Cdk2. Moreover, consistent with …