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  1. Article ; Online: The Eukaryotic Mismatch Recognition Complexes Track with the Replisome during DNA Synthesis.

    Haye, Joanna E / Gammie, Alison E

    PLoS genetics

    2015  Volume 11, Issue 12, Page(s) e1005719

    Abstract: During replication, mismatch repair proteins recognize and repair mispaired bases that escape the proofreading activity of DNA polymerase. In this work, we tested the model that the eukaryotic mismatch recognition complex tracks with the advancing ... ...

    Abstract During replication, mismatch repair proteins recognize and repair mispaired bases that escape the proofreading activity of DNA polymerase. In this work, we tested the model that the eukaryotic mismatch recognition complex tracks with the advancing replisome. Using yeast, we examined the dynamics during replication of the leading strand polymerase Polε using Pol2 and the eukaryotic mismatch recognition complex using Msh2, the invariant protein involved in mismatch recognition. Specifically, we synchronized cells and processed samples using chromatin immunoprecipitation combined with custom DNA tiling arrays (ChIP-chip). The Polε signal was not detectable in G1, but was observed at active origins and replicating DNA throughout S-phase. The Polε signal provided the resolution to track origin firing timing and efficiencies as well as replisome progression rates. By detecting Polε and Msh2 dynamics within the same strain, we established that the mismatch recognition complex binds origins and spreads to adjacent regions with the replisome. In mismatch repair defective PCNA mutants, we observed that Msh2 binds to regions of replicating DNA, but the distribution and dynamics are altered, suggesting that PCNA is not the sole determinant for the mismatch recognition complex association with replicating regions, but may influence the dynamics of movement. Using biochemical and genomic methods, we provide evidence that both MutS complexes are in the vicinity of the replisome to efficiently repair the entire spectrum of mutations during replication. Our data supports the model that the proximity of MutSα/β to the replisome for the efficient repair of the newly synthesized strand before chromatin reassembles.
    MeSH term(s) DNA/biosynthesis ; DNA/genetics ; DNA Mismatch Repair/genetics ; DNA Polymerase II/genetics ; DNA Repair/genetics ; DNA Replication/genetics ; DNA-Directed DNA Polymerase/genetics ; MutS DNA Mismatch-Binding Protein/genetics ; MutS Homolog 2 Protein/genetics ; Mutation ; Saccharomyces cerevisiae ; Saccharomyces cerevisiae Proteins/genetics
    Chemical Substances Saccharomyces cerevisiae Proteins ; DNA (9007-49-2) ; DNA Polymerase II (EC 2.7.7.7) ; DNA-Directed DNA Polymerase (EC 2.7.7.7) ; MSH2 protein, S cerevisiae (EC 3.6.1.3) ; MutS DNA Mismatch-Binding Protein (EC 3.6.1.3) ; MutS Homolog 2 Protein (EC 3.6.1.3)
    Language English
    Publishing date 2015-12-18
    Publishing country United States
    Document type Journal Article ; Research Support, N.I.H., Extramural ; Research Support, Non-U.S. Gov't
    ZDB-ID 2186725-2
    ISSN 1553-7404 ; 1553-7390
    ISSN (online) 1553-7404
    ISSN 1553-7390
    DOI 10.1371/journal.pgen.1005719
    Database MEDical Literature Analysis and Retrieval System OnLINE

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  2. Article ; Online: Cell-cycle and DNA damage regulation of the DNA mismatch repair protein Msh2 occurs at the transcriptional and post-transcriptional level.

    Tennen, Ruth I / Haye, Joanna E / Wijayatilake, Hashanthi D / Arlow, Tim / Ponzio, Danielle / Gammie, Alison E

    DNA repair

    2012  Volume 12, Issue 2, Page(s) 97–109

    Abstract: DNA mismatch repair during replication is a conserved process essential for maintaining genomic stability. Mismatch repair is also implicated in cell-cycle arrest and apoptosis after DNA damage. Because yeast and human mismatch repair systems are well ... ...

    Abstract DNA mismatch repair during replication is a conserved process essential for maintaining genomic stability. Mismatch repair is also implicated in cell-cycle arrest and apoptosis after DNA damage. Because yeast and human mismatch repair systems are well conserved, we have employed the budding yeast Saccharomyces cerevisiae to understand the regulation and function of the mismatch repair gene MSH2. Using a luciferase-based transcriptional reporter, we defined a 218-bp region upstream of MSH2 that contains cell-cycle and DNA damage responsive elements. The 5' end of the MSH2 transcript was mapped by primer extension and was found to encode a small upstream open reading frame (uORF). Mutagenesis of the uORF start codon or of the uORF stop codon, which creates a continuous reading frame with MSH2, increased Msh2 steady-state protein levels ∼2-fold. Furthermore, we found that the cell-cycle transcription factors Swi6, Swi4, and Mbp1-along with SCB/MCB cell-cycle binding sites upstream of MSH2-are all required for full basal expression of MSH2. Mutagenesis of the cell-cycle boxes resulted in a minor reduction in basal Msh2 levels and a 3-fold defect in mismatch repair. Disruption of the cell-cycle boxes also affected growth in a DNA polymerase-defective strain background where mismatch repair is essential, particularly in the presence of the DNA damaging agent methyl methane sulfonate (MMS). Promoter replacements conferring constitutive expression of MSH2 revealed that the transcriptional induction in response to MMS is required to maintain induced levels of Msh2. Turnover experiments confirmed an elevated rate of degradation in the presence of MMS. Taken together, the data show that the DNA damage regulation of Msh2 occurs at the transcriptional and post-transcriptional levels. The transcriptional and translational control elements identified are conserved in mammalian cells, underscoring the use of yeast as a model system to examine the regulation of MSH2.
    MeSH term(s) Base Sequence ; Cell Cycle/genetics ; Codon, Initiator/metabolism ; Codon, Terminator/metabolism ; DNA Damage ; DNA Mismatch Repair ; DNA, Fungal/drug effects ; DNA, Fungal/metabolism ; Gene Expression Regulation, Fungal ; Methyl Methanesulfonate/toxicity ; Molecular Sequence Data ; MutS Homolog 2 Protein/genetics ; MutS Homolog 2 Protein/metabolism ; Mutation ; Open Reading Frames ; RNA Stability ; RNA, Messenger/metabolism ; Response Elements ; Saccharomyces cerevisiae/cytology ; Saccharomyces cerevisiae/genetics ; Saccharomyces cerevisiae/metabolism ; Saccharomyces cerevisiae Proteins/genetics ; Saccharomyces cerevisiae Proteins/metabolism ; Transcription Factors/metabolism ; Transcription, Genetic
    Chemical Substances Codon, Initiator ; Codon, Terminator ; DNA, Fungal ; RNA, Messenger ; Saccharomyces cerevisiae Proteins ; Transcription Factors ; Methyl Methanesulfonate (AT5C31J09G) ; MSH2 protein, S cerevisiae (EC 3.6.1.3) ; MutS Homolog 2 Protein (EC 3.6.1.3)
    Language English
    Publishing date 2012-12-20
    Publishing country Netherlands
    Document type Journal Article ; Research Support, N.I.H., Extramural ; Research Support, Non-U.S. Gov't
    ZDB-ID 2071608-4
    ISSN 1568-7856 ; 1568-7864
    ISSN (online) 1568-7856
    ISSN 1568-7864
    DOI 10.1016/j.dnarep.2012.11.002
    Database MEDical Literature Analysis and Retrieval System OnLINE

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  3. Article: RNA-mediated epigenetic regulation of DNA copy number

    Nowacki, Mariusz / Haye, Joanna E / Fang, Wenwen / Vijayan, Vikram / Landweber, Laura F

    Proceedings of the National Academy of Sciences of the United States of America. 2010 Dec. 21, v. 107, no. 51

    2010  

    Abstract: Increasing evidence suggests that parentally supplied RNA plays crucial roles during eukaryotic development. This epigenetic contribution may regulate gene expression from the earliest stages. Although present in a variety of eukaryotes, maternally ... ...

    Abstract Increasing evidence suggests that parentally supplied RNA plays crucial roles during eukaryotic development. This epigenetic contribution may regulate gene expression from the earliest stages. Although present in a variety of eukaryotes, maternally inherited characters are especially prominent in ciliated protozoa, in which parental noncoding RNA molecules instruct whole-genome reorganization. This includes removal of nearly all noncoding DNA and sorting the remaining fragments, producing extremely gene-rich somatic genomes. Chromosome fragmentation and extensive replication produce variable DNA copy numbers in the somatic genome. Understanding the forces that drive and regulate copy number change is fundamental. We show that RNA molecules present in parental cells during sexual reproduction can regulate chromosome copy number in the developing nucleus of the ciliate OXYTRICHA: Experimentally induced changes in RNA abundance can both increase and decrease the levels of corresponding DNA molecules in progeny, demonstrating epigenetic inheritance of chromosome copy number. These results suggest that maternal RNA, in addition to controlling gene expression or DNA processing, can also program DNA amplification levels.
    Keywords Protozoa ; chromosomes ; epigenetics ; eukaryotic cells ; gene expression ; genome ; intergenic DNA ; non-coding RNA ; progeny ; sexual reproduction
    Language English
    Dates of publication 2010-1221
    Size p. 22140-22144.
    Publishing place National Academy of Sciences
    Document type Article
    ZDB-ID 209104-5
    ISSN 1091-6490 ; 0027-8424
    ISSN (online) 1091-6490
    ISSN 0027-8424
    DOI 10.1073/pnas.1012236107
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  4. Article ; Online: RNA-mediated epigenetic regulation of DNA copy number.

    Nowacki, Mariusz / Haye, Joanna E / Fang, Wenwen / Vijayan, Vikram / Landweber, Laura F

    Proceedings of the National Academy of Sciences of the United States of America

    2010  Volume 107, Issue 51, Page(s) 22140–22144

    Abstract: Increasing evidence suggests that parentally supplied RNA plays crucial roles during eukaryotic development. This epigenetic contribution may regulate gene expression from the earliest stages. Although present in a variety of eukaryotes, maternally ... ...

    Abstract Increasing evidence suggests that parentally supplied RNA plays crucial roles during eukaryotic development. This epigenetic contribution may regulate gene expression from the earliest stages. Although present in a variety of eukaryotes, maternally inherited characters are especially prominent in ciliated protozoa, in which parental noncoding RNA molecules instruct whole-genome reorganization. This includes removal of nearly all noncoding DNA and sorting the remaining fragments, producing extremely gene-rich somatic genomes. Chromosome fragmentation and extensive replication produce variable DNA copy numbers in the somatic genome. Understanding the forces that drive and regulate copy number change is fundamental. We show that RNA molecules present in parental cells during sexual reproduction can regulate chromosome copy number in the developing nucleus of the ciliate Oxytricha. Experimentally induced changes in RNA abundance can both increase and decrease the levels of corresponding DNA molecules in progeny, demonstrating epigenetic inheritance of chromosome copy number. These results suggest that maternal RNA, in addition to controlling gene expression or DNA processing, can also program DNA amplification levels.
    MeSH term(s) Chromosomes/genetics ; Chromosomes/metabolism ; Ciliophora/genetics ; Ciliophora/metabolism ; DNA Copy Number Variations/physiology ; DNA, Protozoan/genetics ; DNA, Protozoan/metabolism ; Epigenesis, Genetic/physiology ; Genome, Protozoan/physiology
    Chemical Substances DNA, Protozoan
    Language English
    Publishing date 2010-11-15
    Publishing country United States
    Document type Journal Article ; Research Support, N.I.H., Extramural ; Research Support, U.S. Gov't, Non-P.H.S.
    ZDB-ID 209104-5
    ISSN 1091-6490 ; 0027-8424
    ISSN (online) 1091-6490
    ISSN 0027-8424
    DOI 10.1073/pnas.1012236107
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  5. Article ; Online: A role for autophagic protein beclin 1 early in lymphocyte development.

    Arsov, Ivica / Adebayo, Adeola / Kucerova-Levisohn, Martina / Haye, Joanna / MacNeil, Margaret / Papavasiliou, F Nina / Yue, Zhenyu / Ortiz, Benjamin D

    Journal of immunology (Baltimore, Md. : 1950)

    2011  Volume 186, Issue 4, Page(s) 2201–2209

    Abstract: Autophagy is a highly regulated and evolutionarily conserved process of cellular self-digestion. Recent evidence suggests that this process plays an important role in regulating T cell homeostasis. In this study, we used Rag1(-/-) (recombination ... ...

    Abstract Autophagy is a highly regulated and evolutionarily conserved process of cellular self-digestion. Recent evidence suggests that this process plays an important role in regulating T cell homeostasis. In this study, we used Rag1(-/-) (recombination activating gene 1(-/-)) blastocyst complementation and in vitro embryonic stem cell differentiation to address the role of Beclin 1, one of the key autophagic proteins, in lymphocyte development. Beclin 1-deficient Rag1(-/-) chimeras displayed a dramatic reduction in thymic cellularity compared with control mice. Using embryonic stem cell differentiation in vitro, we found that the inability to maintain normal thymic cellularity is likely caused by impaired maintenance of thymocyte progenitors. Interestingly, despite drastically reduced thymocyte numbers, the peripheral T cell compartment of Beclin 1-deficient Rag1(-/-) chimeras is largely normal. Peripheral T cells displayed normal in vitro proliferation despite significantly reduced numbers of autophagosomes. In addition, these chimeras had greatly reduced numbers of early B cells in the bone marrow compared with controls. However, the peripheral B cell compartment was not dramatically impacted by Beclin 1 deficiency. Collectively, our results suggest that Beclin 1 is required for maintenance of undifferentiated/early lymphocyte progenitor populations. In contrast, Beclin 1 is largely dispensable for the initial generation and function of the peripheral T and B cell compartments. This indicates that normal lymphocyte development involves Beclin 1-dependent, early-stage and distinct, Beclin 1-independent, late-stage processes.
    MeSH term(s) Animals ; Apoptosis Regulatory Proteins/deficiency ; Apoptosis Regulatory Proteins/genetics ; Apoptosis Regulatory Proteins/physiology ; Autophagy/immunology ; B-Lymphocyte Subsets/cytology ; B-Lymphocyte Subsets/immunology ; B-Lymphocyte Subsets/pathology ; Beclin-1 ; Cell Differentiation/genetics ; Cell Differentiation/immunology ; Coculture Techniques ; Embryonic Stem Cells/immunology ; Embryonic Stem Cells/pathology ; Embryonic Stem Cells/transplantation ; Female ; Humans ; Lymphocyte Subsets/immunology ; Lymphocyte Subsets/metabolism ; Lymphocyte Subsets/pathology ; Male ; Mice ; Mice, 129 Strain ; Mice, Inbred C57BL ; Mice, Knockout ; Radiation Chimera/genetics ; Radiation Chimera/immunology ; T-Lymphocyte Subsets/cytology ; T-Lymphocyte Subsets/immunology ; T-Lymphocyte Subsets/pathology ; Time Factors
    Chemical Substances Apoptosis Regulatory Proteins ; Beclin-1 ; Becn1 protein, mouse
    Language English
    Publishing date 2011-01-14
    Publishing country United States
    Document type Journal Article ; Research Support, N.I.H., Extramural ; Research Support, Non-U.S. Gov't ; Research Support, U.S. Gov't, Non-P.H.S.
    ZDB-ID 3056-9
    ISSN 1550-6606 ; 0022-1767 ; 1048-3233 ; 1047-7381
    ISSN (online) 1550-6606
    ISSN 0022-1767 ; 1048-3233 ; 1047-7381
    DOI 10.4049/jimmunol.1002223
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  6. Article ; Online: Drosophila muller f elements maintain a distinct set of genomic properties over 40 million years of evolution.

    Leung, Wilson / Shaffer, Christopher D / Reed, Laura K / Smith, Sheryl T / Barshop, William / Dirkes, William / Dothager, Matthew / Lee, Paul / Wong, Jeannette / Xiong, David / Yuan, Han / Bedard, James E J / Machone, Joshua F / Patterson, Seantay D / Price, Amber L / Turner, Bryce A / Robic, Srebrenka / Luippold, Erin K / McCartha, Shannon R /
    Walji, Tezin A / Walker, Chelsea A / Saville, Kenneth / Abrams, Marita K / Armstrong, Andrew R / Armstrong, William / Bailey, Robert J / Barberi, Chelsea R / Beck, Lauren R / Blaker, Amanda L / Blunden, Christopher E / Brand, Jordan P / Brock, Ethan J / Brooks, Dana W / Brown, Marie / Butzler, Sarah C / Clark, Eric M / Clark, Nicole B / Collins, Ashley A / Cotteleer, Rebecca J / Cullimore, Peterson R / Dawson, Seth G / Docking, Carter T / Dorsett, Sasha L / Dougherty, Grace A / Downey, Kaitlyn A / Drake, Andrew P / Earl, Erica K / Floyd, Trevor G / Forsyth, Joshua D / Foust, Jonathan D / Franchi, Spencer L / Geary, James F / Hanson, Cynthia K / Harding, Taylor S / Harris, Cameron B / Heckman, Jonathan M / Holderness, Heather L / Howey, Nicole A / Jacobs, Dontae A / Jewell, Elizabeth S / Kaisler, Maria / Karaska, Elizabeth A / Kehoe, James L / Koaches, Hannah C / Koehler, Jessica / Koenig, Dana / Kujawski, Alexander J / Kus, Jordan E / Lammers, Jennifer A / Leads, Rachel R / Leatherman, Emily C / Lippert, Rachel N / Messenger, Gregory S / Morrow, Adam T / Newcomb, Victoria / Plasman, Haley J / Potocny, Stephanie J / Powers, Michelle K / Reem, Rachel M / Rennhack, Jonathan P / Reynolds, Katherine R / Reynolds, Lyndsey A / Rhee, Dong K / Rivard, Allyson B / Ronk, Adam J / Rooney, Meghan B / Rubin, Lainey S / Salbert, Luke R / Saluja, Rasleen K / Schauder, Taylor / Schneiter, Allison R / Schulz, Robert W / Smith, Karl E / Spencer, Sarah / Swanson, Bryant R / Tache, Melissa A / Tewilliager, Ashley A / Tilot, Amanda K / VanEck, Eve / Villerot, Matthew M / Vylonis, Megan B / Watson, David T / Wurzler, Juliana A / Wysocki, Lauren M / Yalamanchili, Monica / Zaborowicz, Matthew A / Emerson, Julia A / Ortiz, Carlos / Deuschle, Frederic J / DiLorenzo, Lauren A / Goeller, Katie L / Macchi, Christopher R / Muller, Sarah E / Pasierb, Brittany D / Sable, Joseph E / Tucci, Jessica M / Tynon, Marykathryn / Dunbar, David A / Beken, Levent H / Conturso, Alaina C / Danner, Benjamin L / DeMichele, Gabriella A / Gonzales, Justin A / Hammond, Maureen S / Kelley, Colleen V / Kelly, Elisabeth A / Kulich, Danielle / Mageeney, Catherine M / McCabe, Nikie L / Newman, Alyssa M / Spaeder, Lindsay A / Tumminello, Richard A / Revie, Dennis / Benson, Jonathon M / Cristostomo, Michael C / DaSilva, Paolo A / Harker, Katherine S / Jarrell, Jenifer N / Jimenez, Luis A / Katz, Brandon M / Kennedy, William R / Kolibas, Kimberly S / LeBlanc, Mark T / Nguyen, Trung T / Nicolas, Daniel S / Patao, Melissa D / Patao, Shane M / Rupley, Bryan J / Sessions, Bridget J / Weaver, Jennifer A / Goodman, Anya L / Alvendia, Erica L / Baldassari, Shana M / Brown, Ashley S / Chase, Ian O / Chen, Maida / Chiang, Scott / Cromwell, Avery B / Custer, Ashley F / DiTommaso, Tia M / El-Adaimi, Jad / Goscinski, Nora C / Grove, Ryan A / Gutierrez, Nestor / Harnoto, Raechel S / Hedeen, Heather / Hong, Emily L / Hopkins, Barbara L / Huerta, Vilma F / Khoshabian, Colin / LaForge, Kristin M / Lee, Cassidy T / Lewis, Benjamin M / Lydon, Anniken M / Maniaci, Brian J / Mitchell, Ryan D / Morlock, Elaine V / Morris, William M / Naik, Priyanka / Olson, Nicole C / Osterloh, Jeannette M / Perez, Marcos A / Presley, Jonathan D / Randazzo, Matt J / Regan, Melanie K / Rossi, Franca G / Smith, Melanie A / Soliterman, Eugenia A / Sparks, Ciani J / Tran, Danny L / Wan, Tiffany / Welker, Anne A / Wong, Jeremy N / Sreenivasan, Aparna / Youngblom, Jim / Adams, Andrew / Alldredge, Justin / Bryant, Ashley / Carranza, David / Cifelli, Alyssa / Coulson, Kevin / Debow, Calise / Delacruz, Noelle / Emerson, Charlene / Farrar, Cassandra / Foret, Don / Garibay, Edgar / Gooch, John / Heslop, Michelle / Kaur, Sukhjit / Khan, Ambreen / Kim, Van / Lamb, Travis / Lindbeck, Peter / Lucas, Gabi / Macias, Elizabeth / Martiniuc, Daniela / Mayorga, Lissett / Medina, Joseph / Membreno, Nelson / Messiah, Shady / Neufeld, Lacey / Nguyen, San Francisco / Nichols, Zachary / Odisho, George / Peterson, Daymon / Rodela, Laura / Rodriguez, Priscilla / Rodriguez, Vanessa / Ruiz, Jorge / Sherrill, Will / Silva, Valeria / Sparks, Jeri / Statton, Geeta / Townsend, Ashley / Valdez, Isabel / Waters, Mary / Westphal, Kyle / Winkler, Stacey / Zumkehr, Joannee / DeJong, Randall J / Hoogewerf, Arlene J / Ackerman, Cheri M / Armistead, Isaac O / Baatenburg, Lara / Borr, Matthew J / Brouwer, Lindsay K / Burkhart, Brandon J / Bushhouse, Kelsey T / Cesko, Lejla / Choi, Tiffany Y Y / Cohen, Heather / Damsteegt, Amanda M / Darusz, Jess M / Dauphin, Cory M / Davis, Yelena P / Diekema, Emily J / Drewry, Melissa / Eisen, Michelle E M / Faber, Hayley M / Faber, Katherine J / Feenstra, Elizabeth / Felzer-Kim, Isabella T / Hammond, Brandy L / Hendriksma, Jesse / Herrold, Milton R / Hilbrands, Julia A / Howell, Emily J / Jelgerhuis, Sarah A / Jelsema, Timothy R / Johnson, Benjamin K / Jones, Kelly K / Kim, Anna / Kooienga, Ross D / Menyes, Erika E / Nollet, Eric A / Plescher, Brittany E / Rios, Lindsay / Rose, Jenny L / Schepers, Allison J / Scott, Geoff / Smith, Joshua R / Sterling, Allison M / Tenney, Jenna C / Uitvlugt, Chris / VanDyken, Rachel E / VanderVennen, Marielle / Vue, Samantha / Kokan, Nighat P / Agbley, Kwabea / Boham, Sampson K / Broomfield, Daniel / Chapman, Kayla / Dobbe, Ali / Dobbe, Ian / Harrington, William / Ibrahem, Marwan / Kennedy, Andre / Koplinsky, Chad A / Kubricky, Cassandra / Ladzekpo, Danielle / Pattison, Claire / Ramirez, Roman E / Wande, Lucia / Woehlke, Sarah / Wawersik, Matthew / Kiernan, Elizabeth / Thompson, Jeffrey S / Banker, Roxanne / Bartling, Justina R / Bhatiya, Chinmoy I / Boudoures, Anna L / Christiansen, Lena / Fosselman, Daniel S / French, Kristin M / Gill, Ishwar S / Havill, Jessen T / Johnson, Jaelyn L / Keny, Lauren J / Kerber, John M / Klett, Bethany M / Kufel, Christina N / May, Francis J / Mecoli, Jonathan P / Merry, Callie R / Meyer, Lauren R / Miller, Emily G / Mullen, Gregory J / Palozola, Katherine C / Pfeil, Jacob J / Thomas, Jessica G / Verbofsky, Evan M / Spana, Eric P / Agarwalla, Anant / Chapman, Julia / Chlebina, Ben / Chong, Insun / Falk, I N / Fitzgibbons, John D / Friedman, Harrison / Ighile, Osagie / Kim, Andrew J / Knouse, Kristin A / Kung, Faith / Mammo, Danny / Ng, Chun Leung / Nikam, Vinayak S / Norton, Diana / Pham, Philip / Polk, Jessica W / Prasad, Shreya / Rankin, Helen / Ratliff, Camille D / Scala, Victoria / Schwartz, Nicholas U / Shuen, Jessica A / Xu, Amy / Xu, Thomas Q / Zhang, Yi / Rosenwald, Anne G / Burg, Martin G / Adams, Stephanie J / Baker, Morgan / Botsford, Bobbi / Brinkley, Briana / Brown, Carter / Emiah, Shadie / Enoch, Erica / Gier, Chad / Greenwell, Alyson / Hoogenboom, Lindsay / Matthews, Jordan E / McDonald, Mitchell / Mercer, Amanda / Monsma, Nicholaus / Ostby, Kristine / Ramic, Alen / Shallman, Devon / Simon, Matthew / Spencer, Eric / Tomkins, Trisha / Wendland, Pete / Wylie, Anna / Wolyniak, Michael J / Robertson, Gregory M / Smith, Samuel I / DiAngelo, Justin R / Sassu, Eric D / Bhalla, Satish C / Sharif, Karim A / Choeying, Tenzin / Macias, Jason S / Sanusi, Fareed / Torchon, Karvyn / Bednarski, April E / Alvarez, Consuelo J / Davis, Kristen C / Dunham, Carrie A / Grantham, Alaina J / Hare, Amber N / Schottler, Jennifer / Scott, Zackary W / Kuleck, Gary A / Yu, Nicole S / Kaehler, Marian M / Jipp, Jacob / Overvoorde, Paul J / Shoop, Elizabeth / Cyrankowski, Olivia / Hoover, Betsy / Kusner, Matt / Lin, Devry / Martinov, Tijana / Misch, Jonathan / Salzman, Garrett / Schiedermayer, Holly / Snavely, Michael / Zarrasola, Stephanie / Parrish, Susan / Baker, Atlee / Beckett, Alissa / Belella, Carissa / Bryant, Julie / Conrad, Turner / Fearnow, Adam / Gomez, Carolina / Herbstsomer, Robert A / Hirsch, Sarah / Johnson, Christen / Jones, Melissa / Kabaso, Rita / Lemmon, Eric / Vieira, Carolina Marques Dos Santos / McFarland, Darryl / McLaughlin, Christopher / Morgan, Abbie / Musokotwane, Sepo / Neutzling, William / Nietmann, Jana / Paluskievicz, Christina / Penn, Jessica / Peoples, Emily / Pozmanter, Caitlin / Reed, Emily / Rigby, Nichole / Schmidt, Lasse / Shelton, Micah / Shuford, Rebecca / Tirasawasdichai, Tiara / Undem, Blair / Urick, Damian / Vondy, Kayla / Yarrington, Bryan / Eckdahl, Todd T / Poet, Jeffrey L / Allen, Alica B / Anderson, John E / Barnett, Jason M / Baumgardner, Jordan S / Brown, Adam D / Carney, Jordan E / Chavez, Ramiro A / Christgen, Shelbi L / Christie, Jordan S / Clary, Andrea N / Conn, Michel A / Cooper, Kristen M / Crowley, Matt J / Crowley, Samuel T / Doty, Jennifer S / Dow, Brian A / Edwards, Curtis R / Elder, Darcie D / Fanning, John P / Janssen, Bridget M / Lambright, Anthony K / Lane, Curtiss E / Limle, Austin B / Mazur, Tammy / McCracken, Marly R / McDonough, Alexa M / Melton, Amy D / Minnick, Phillip J / Musick, Adam E / Newhart, William H / Noynaert, Joseph W / Ogden, Bradley J / Sandusky, Michael W / Schmuecker, Samantha M / Shipman, Anna L / Smith, Anna L / Thomsen, Kristen M / Unzicker, Matthew R / Vernon, William B / Winn, Wesley W / Woyski, Dustin S / Zhu, Xiao / Du, Chunguang / Ament, Caitlin / Aso, Soham / Bisogno, Laura Simone / Caronna, Jason / Fefelova, Nadezhda / Lopez, Lenin / Malkowitz, Lorraine / Marra, Jonathan / Menillo, Daniella / Obiorah, Ifeanyi / Onsarigo, Eric Nyabeta / Primus, Shekerah / Soos, Mahdi / Tare, Archana / Zidan, Ameer / Jones, Christopher J / Aronhalt, Todd / Bellush, James M / Burke, Christa / DeFazio, Steve / Does, Benjamin R / Johnson, Todd D / Keysock, Nicholas / Knudsen, Nelson H / Messler, James / Myirski, Kevin / Rekai, Jade Lea / Rempe, Ryan Michael / Salgado, Michael S / Stagaard, Erica / Starcher, Justin R / Waggoner, Andrew W / Yemelyanova, Anastasia K / Hark, Amy T / Bertolet, Anne / Kuschner, Cyrus E / Parry, Kesley / Quach, Michael / Shantzer, Lindsey / Shaw, Mary E / Smith, Mary A / Glenn, Omolara / Mason, Portia / Williams, Charlotte / Key, S Catherine Silver / Henry, Tyneshia C P / Johnson, Ashlee G / White, Jackie X / Haberman, Adam / Asinof, Sam / Drumm, Kelly / Freeburg, Trip / Safa, Nadia / Schultz, Darrin / Shevin, Yakov / Svoronos, Petros / Vuong, Tam / Wellinghoff, Jules / Hoopes, Laura L M / Chau, Kim M / Ward, Alyssa / Regisford, E Gloria C / Augustine, LaJerald / Davis-Reyes, Brionna / Echendu, Vivienne / Hales, Jasmine / Ibarra, Sharon / Johnson, Lauriaun / Ovu, Steven / Braverman, John M / Bahr, Thomas J / Caesar, Nicole M / Campana, Christopher / Cassidy, Daniel W / Cognetti, Peter A / English, Johnathan D / Fadus, Matthew C / Fick, Cameron N / Freda, Philip J / Hennessy, Bryan M / Hockenberger, Kelsey / Jones, Jennifer K / King, Jessica E / Knob, Christopher R / Kraftmann, Karen J / Li, Linghui / Lupey, Lena N / Minniti, Carl J / Minton, Thomas F / Moran, Joseph V / Mudumbi, Krishna / Nordman, Elizabeth C / Puetz, William J / Robinson, Lauren M / Rose, Thomas J / Sweeney, Edward P / Timko, Ashley S / Paetkau, Don W / Eisler, Heather L / Aldrup, Megan E / Bodenberg, Jessica M / Cole, Mara G / Deranek, Kelly M / DeShetler, Megan / Dowd, Rose M / Eckardt, Alexandra K / Ehret, Sharon C / Fese, Jessica / Garrett, Amanda D / Kammrath, Anna / Kappes, Michelle L / Light, Morgan R / Meier, Anne C / O'Rouke, Allison / Perella, Mallory / Ramsey, Kimberley / Ramthun, Jennifer R / Reilly, Mary T / Robinett, Deirdre / Rossi, Nadine L / Schueler, Mary Grace / Shoemaker, Emma / Starkey, Kristin M / Vetor, Ashley / Vrable, Abby / Chandrasekaran, Vidya / Beck, Christopher / Hatfield, Kristen R / Herrick, Douglas A / Khoury, Christopher B / Lea, Charlotte / Louie, Christopher A / Lowell, Shannon M / Reynolds, Thomas J / Schibler, Jeanine / Scoma, Alexandra H / Smith-Gee, Maxwell T / Tuberty, Sarah / Smith, Christopher D / Lopilato, Jane E / Hauke, Jeanette / Roecklein-Canfield, Jennifer A / Corrielus, Maureen / Gilman, Hannah / Intriago, Stephanie / Maffa, Amanda / Rauf, Sabya A / Thistle, Katrina / Trieu, Melissa / Winters, Jenifer / Yang, Bib / Hauser, Charles R / Abusheikh, Tariq / Ashrawi, Yara / Benitez, Pedro / Boudreaux, Lauren R / Bourland, Megan / Chavez, Miranda / Cruz, Samantha / Elliott, GiNell / Farek, Jesse R / Flohr, Sarah / Flores, Amanda H / Friedrichs, Chelsey / Fusco, Zach / Goodwin, Zane / Helmreich, Eric / Kiley, John / Knepper, John Mark / Langner, Christine / Martinez, Megan / Mendoza, Carlos / Naik, Monal / Ochoa, Andrea / Ragland, Nicolas / Raimey, England / Rathore, Sunil / Reza, Evangelina / Sadovsky, Griffin / Seydoux, Marie-Isabelle B / Smith, Jonathan E / Unruh, Anna K / Velasquez, Vicente / Wolski, Matthew W / Gosser, Yuying / Govind, Shubha / Clarke-Medley, Nicole / Guadron, Leslie / Lau, Dawn / Lu, Alvin / Mazzeo, Cheryl / Meghdari, Mariam / Ng, Simon / Pamnani, Brad / Plante, Olivia / Shum, Yuki Kwan Wa / Song, Roy / Johnson, Diana E / Abdelnabi, Mai / Archambault, Alexi / Chamma, Norma / Gaur, Shailly / Hammett, Deborah / Kandahari, Adrese / Khayrullina, Guzal / Kumar, Sonali / Lawrence, Samantha / Madden, Nigel / Mandelbaum, Max / Milnthorp, Heather / Mohini, Shiv / Patel, Roshni / Peacock, Sarah J / Perling, Emily / Quintana, Amber / Rahimi, Michael / Ramirez, Kristen / Singhal, Rishi / Weeks, Corinne / Wong, Tiffany / Gillis, Aubree T / Moore, Zachary D / Savell, Christopher D / Watson, Reece / Mel, Stephanie F / Anilkumar, Arjun A / Bilinski, Paul / Castillo, Rostislav / Closser, Michael / Cruz, Nathalia M / Dai, Tiffany / Garbagnati, Giancarlo F / Horton, Lanor S / Kim, Dongyeon / Lau, Joyce H / Liu, James Z / Mach, Sandy D / Phan, Thu A / Ren, Yi / Stapleton, Kenneth E / Strelitz, Jean M / Sunjed, Ray / Stamm, Joyce / Anderson, Morgan C / Bonifield, Bethany Grace / Coomes, Daniel / Dillman, Adam / Durchholz, Elaine J / Fafara-Thompson, Antoinette E / Gross, Meleah J / Gygi, Amber M / Jackson, Lesley E / Johnson, Amy / Kocsisova, Zuzana / Manghelli, Joshua L / McNeil, Kylie / Murillo, Michael / Naylor, Kierstin L / Neely, Jessica / Ogawa, Emmy E / Rich, Ashley / Rogers, Anna / Spencer, J Devin / Stemler, Kristina M / Throm, Allison A / Van Camp, Matt / Weihbrecht, Katie / Wiles, T Aaron / Williams, Mallory A / Williams, Matthew / Zoll, Kyle / Bailey, Cheryl / Zhou, Leming / Balthaser, Darla M / Bashiri, Azita / Bower, Mindy E / Florian, Kayla A / Ghavam, Nazanin / Greiner-Sosanko, Elizabeth S / Karim, Helmet / Mullen, Victor W / Pelchen, Carly E / Yenerall, Paul M / Zhang, Jiayu / Rubin, Michael R / Arias-Mejias, Suzette M / Bermudez-Capo, Armando G / Bernal-Vega, Gabriela V / Colon-Vazquez, Mariela / Flores-Vazquez, Arelys / Gines-Rosario, Mariela / Llavona-Cartagena, Ivan G / Martinez-Rodriguez, Javier O / Ortiz-Fuentes, Lionel / Perez-Colomba, Eliezer O / Perez-Otero, Joseph / Rivera, Elisandra / Rodriguez-Giron, Luke J / Santiago-Sanabria, Arnaldo J / Senquiz-Gonzalez, Andrea M / delValle, Frank R Soto / Vargas-Franco, Dorianmarie / Velázquez-Soto, Karla I / Zambrana-Burgos, Joan D / Martinez-Cruzado, Juan Carlos / Asencio-Zayas, Lillyann / Babilonia-Figueroa, Kevin / Beauchamp-Pérez, Francis D / Belén-Rodríguez, Juliana / Bracero-Quiñones, Luciann / Burgos-Bula, Andrea P / Collado-Méndez, Xavier A / Colón-Cruz, Luis R / Correa-Muller, Ana I / Crooke-Rosado, Jonathan L / Cruz-García, José M / Defendini-Ávila, Marianna / Delgado-Peraza, Francheska M / Feliciano-Cancela, Alex J / Gónzalez-Pérez, Valerie M / Guiblet, Wilfried / Heredia-Negrón, Aldo / Hernández-Muñiz, Jennifer / Irizarry-González, Lourdes N / Laboy-Corales, Ángel L / Llaurador-Caraballo, Gabriela A / Marín-Maldonado, Frances / Marrero-Llerena, Ulises / Martell-Martínez, Héctor A / Martínez-Traverso, Idaliz M / Medina-Ortega, Kiara N / Méndez-Castellanos, Sonya G / Menéndez-Serrano, Krizia C / Morales-Caraballo, Carol I / Ortiz-DeChoudens, Saryleine / Ortiz-Ortiz, Patricia / Pagán-Torres, Hendrick / Pérez-Afanador, Diana / Quintana-Torres, Enid M / Ramírez-Aponte, Edwin G / Riascos-Cuero, Carolina / Rivera-Llovet, Michelle S / Rivera-Pagán, Ingrid T / Rivera-Vicéns, Ramón E / Robles-Juarbe, Fabiola / Rodríguez-Bonilla, Lorraine / Rodríguez-Echevarría, Brian O / Rodríguez-García, Priscila M / Rodríguez-Laboy, Abneris E / Rodríguez-Santiago, Susana / Rojas-Vargas, Michael L / Rubio-Marrero, Eva N / Santiago-Colón, Albeliz / Santiago-Ortiz, Jorge L / Santos-Ramos, Carlos E / Serrano-González, Joseline / Tamayo-Figueroa, Alina M / Tascón-Peñaranda, Edna P / Torres-Castillo, José L / Valentín-Feliciano, Nelson A / Valentín-Feliciano, Yashira M / Vargas-Barreto, Nadyan M / Vélez-Vázquez, Miguel / Vilanova-Vélez, Luis R / Zambrana-Echevarría, Cristina / MacKinnon, Christy / Chung, Hui-Min / Kay, Chris / Pinto, Anthony / Kopp, Olga R / Burkhardt, Joshua / Harward, Chris / Allen, Robert / Bhat, Pavan / Chang, Jimmy Hsiang-Chun / Chen, York / Chesley, Christopher / Cohn, Dara / DuPuis, David / Fasano, Michael / Fazzio, Nicholas / Gavinski, Katherine / Gebreyesus, Heran / Giarla, Thomas / Gostelow, Marcus / Greenstein, Rachel / Gunasinghe, Hashini / Hanson, Casey / Hay, Amanda / He, Tao Jian / Homa, Katie / Howe, Ruth / Howenstein, Jeff / Huang, Henry / Khatri, Aaditya / Kim, Young Lu / Knowles, Olivia / Kong, Sarah / Krock, Rebecca / Kroll, Matt / Kuhn, Julia / Kwong, Matthew / Lee, Brandon / Lee, Ryan / Levine, Kevin / Li, Yedda / Liu, Bo / Liu, Lucy / Liu, Max / Lousararian, Adam / Ma, Jimmy / Mallya, Allyson / Manchee, Charlie / Marcus, Joseph / McDaniel, Stephen / Miller, Michelle L / Molleston, Jerome M / Diez, Cristina Montero / Ng, Patrick / Ngai, Natalie / Nguyen, Hien / Nylander, Andrew / Pollack, Jason / Rastogi, Suchita / Reddy, Himabindu / Regenold, Nathaniel / Sarezky, Jon / Schultz, Michael / Shim, Jien / Skorupa, Tara / Smith, Kenneth / Spencer, Sarah J / Srikanth, Priya / Stancu, Gabriel / Stein, Andrew P / Strother, Marshall / Sudmeier, Lisa / Sun, Mengyang / Sundaram, Varun / Tazudeen, Noor / Tseng, Alan / Tzeng, Albert / Venkat, Rohit / Venkataram, Sandeep / Waldman, Leah / Wang, Tracy / Yang, Hao / Yu, Jack Y / Zheng, Yin / Preuss, Mary L / Garcia, Angelica / Juergens, Matt / Morris, Robert W / Nagengast, Alexis A / Azarewicz, Julie / Carr, Thomas J / Chichearo, Nicole / Colgan, Mike / Donegan, Megan / Gardner, Bob / Kolba, Nik / Krumm, Janice L / Lytle, Stacey / MacMillian, Laurell / Miller, Mary / Montgomery, Andrew / Moretti, Alysha / Offenbacker, Brittney / Polen, Mike / Toth, John / Woytanowski, John / Kadlec, Lisa / Crawford, Justin / Spratt, Mary L / Adams, Ashley L / Barnard, Brianna K / Cheramie, Martin N / Eime, Anne M / Golden, Kathryn L / Hawkins, Allyson P / Hill, Jessica E / Kampmeier, Jessica A / Kern, Cody D / Magnuson, Emily E / Miller, Ashley R / Morrow, Cody M / Peairs, Julia C / Pickett, Gentry L / Popelka, Sarah A / Scott, Alexis J / Teepe, Emily J / TerMeer, Katie A / Watchinski, Carmen A / Watson, Lucas A / Weber, Rachel E / Woodard, Kate A / Barnard, Daron C / Appiah, Isaac / Giddens, Michelle M / McNeil, Gerard P / Adebayo, Adeola / Bagaeva, Kate / Chinwong, Justina / Dol, Chrystel / George, Eunice / Haltaufderhyde, Kirk / Haye, Joanna / Kaur, Manpreet / Semon, Max / Serjanov, Dmitri / Toorie, Anika / Wilson, Christopher / Riddle, Nicole C / Buhler, Jeremy / Mardis, Elaine R / Elgin, Sarah C R

    G3 (Bethesda, Md.)

    2015  Volume 5, Issue 5, Page(s) 719–740

    Abstract: The Muller F element (4.2 Mb, ~80 protein-coding genes) is an unusual autosome of Drosophila melanogaster; it is mostly heterochromatic with a low recombination rate. To investigate how these properties impact the evolution of repeats and genes, we ... ...

    Abstract The Muller F element (4.2 Mb, ~80 protein-coding genes) is an unusual autosome of Drosophila melanogaster; it is mostly heterochromatic with a low recombination rate. To investigate how these properties impact the evolution of repeats and genes, we manually improved the sequence and annotated the genes on the D. erecta, D. mojavensis, and D. grimshawi F elements and euchromatic domains from the Muller D element. We find that F elements have greater transposon density (25-50%) than euchromatic reference regions (3-11%). Among the F elements, D. grimshawi has the lowest transposon density (particularly DINE-1: 2% vs. 11-27%). F element genes have larger coding spans, more coding exons, larger introns, and lower codon bias. Comparison of the Effective Number of Codons with the Codon Adaptation Index shows that, in contrast to the other species, codon bias in D. grimshawi F element genes can be attributed primarily to selection instead of mutational biases, suggesting that density and types of transposons affect the degree of local heterochromatin formation. F element genes have lower estimated DNA melting temperatures than D element genes, potentially facilitating transcription through heterochromatin. Most F element genes (~90%) have remained on that element, but the F element has smaller syntenic blocks than genome averages (3.4-3.6 vs. 8.4-8.8 genes per block), indicating greater rates of inversion despite lower rates of recombination. Overall, the F element has maintained characteristics that are distinct from other autosomes in the Drosophila lineage, illuminating the constraints imposed by a heterochromatic milieu.
    MeSH term(s) Animals ; Codon ; Computational Biology ; DNA Transposable Elements ; Drosophila/genetics ; Drosophila Proteins/genetics ; Drosophila melanogaster/genetics ; Evolution, Molecular ; Exons ; Gene Rearrangement ; Genome ; Genomics ; Heterochromatin ; Introns ; Molecular Sequence Annotation ; Polytene Chromosomes ; Repetitive Sequences, Nucleic Acid ; Selection, Genetic ; Species Specificity
    Chemical Substances Codon ; DNA Transposable Elements ; Drosophila Proteins ; Heterochromatin
    Language English
    Publishing date 2015-03-04
    Publishing country United States
    Document type Journal Article ; Research Support, N.I.H., Extramural ; Research Support, Non-U.S. Gov't
    ZDB-ID 2629978-1
    ISSN 2160-1836 ; 2160-1836
    ISSN (online) 2160-1836
    ISSN 2160-1836
    DOI 10.1534/g3.114.015966
    Database MEDical Literature Analysis and Retrieval System OnLINE

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  7. Article: RNA-mediated epigenetic regulation of DNA copy number

    Nowacki, Mariusz / Haye, Joanna E. / Fang, Wenwen / Vijayan, Vikram / Landweber, Laura F.
    Language English
    Document type Article
    Database AGRIS - International Information System for the Agricultural Sciences and Technology

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