A novel transcription factor, BmZFP67, regulates endomitosis switch by controlling the expression of cyclin B in silk glands.

[1]  L. M. Parteka,et al.  Nuclear variations and tapetum polyploidy related to pollen grain development in Passiflora L. (Passifloraceae) , 2021, Cell biology international.

[2]  F. Martelli,et al.  Mitochondrial–cell cycle cross-talk drives endoreplication in heart disease , 2021, Science Translational Medicine.

[3]  Ana Lilia Torres-Machorro Homodimeric and Heterodimeric Interactions among Vertebrate Basic Helix–Loop–Helix Transcription Factors , 2021, International journal of molecular sciences.

[4]  Sujit Roy,et al.  SOG1 transcription factor promotes the onset of endoreduplication under salinity stress in Arabidopsis , 2021, Scientific Reports.

[5]  T. Dandekar,et al.  RhoA/Cdc42 signaling drives cytoplasmic maturation but not endomitosis in megakaryocytes. , 2021, Cell reports.

[6]  H. Korswagen,et al.  Endomitosis controls tissue-specific gene expression during development , 2021, bioRxiv.

[7]  OUP accepted manuscript , 2021, Nucleic Acids Research.

[8]  E. Zybina,et al.  Role of cell cycling and polyploidy in placental trophoblast of different mammalian species. , 2020, Reproduction in domestic animals = Zuchthygiene.

[9]  A. Schnittger,et al.  Endoreplication - a means to an end in cell growth and stress response. , 2020, Current opinion in plant biology.

[10]  Erez Lieberman Aiden,et al.  Cohesin depleted cells rebuild functional nuclear compartments after endomitosis , 2019, Nature Communications.

[11]  F. Dai,et al.  Genome-wide identification and expression profiling of the C2H2-type zinc finger protein genes in the silkworm Bombyx mori , 2019, PeerJ.

[12]  Cheng Lu,et al.  BmGeminin2 interacts with BmRRS1 and regulates Bombyx mori cell proliferation , 2019, Cell cycle.

[13]  L. Noetzli,et al.  New Insights Into the Differentiation of Megakaryocytes From Hematopoietic Progenitors. , 2019, Arteriosclerosis, thrombosis, and vascular biology.

[14]  Jing Chen,et al.  Bioinformatic and functional analysis of promoter region of human SLC25A13 gene. , 2019, Gene.

[15]  D. Fox,et al.  Fizzy-Related dictates A cell cycle switch during organ repair and tissue growth responses in the Drosophila hindgut , 2018, eLife.

[16]  W. Deng,et al.  Endoreplication: The Good, the Bad, and the Ugly. , 2018, Trends in cell biology.

[17]  T. Orr-Weaver,et al.  Variant cell cycles regulated by Notch signaling control cell size and ensure a functional blood-brain barrier , 2018, Development.

[18]  S. Ramaswamy,et al.  E2F/DP Prevents Cell-Cycle Progression in Endocycling Fat Body Cells by Suppressing dATM Expression. , 2017, Developmental cell.

[19]  T. Orr-Weaver,et al.  DNA Replication Control During Drosophila Development: Insights into the Onset of S Phase, Replication Initiation, and Fork Progression , 2017, Genetics.

[20]  Hongsheng Song,et al.  YorkieCA overexpression in the posterior silk gland improves silk yield in Bombyx mori. , 2017, Journal of insect physiology.

[21]  Q. Xia,et al.  Zinc finger protein rotund deficiency affects development of the thoracic leg in Bombyx mori , 2017, Insect science.

[22]  Cheng Lu,et al.  Two Geminin homologs regulate DNA replication in silkworm, Bombyx mori , 2017, Cell cycle.

[23]  E. N. Andreyeva,et al.  Regulatory functions and chromatin loading dynamics of linker histone H1 during endoreplication in Drosophila , 2017, Genes & development.

[24]  Patrick C. McCarter,et al.  Expression of an S phase-stabilized version of the CDK inhibitor Dacapo can alter endoreplication , 2015, Development.

[25]  T. Orr-Weaver When bigger is better: the role of polyploidy in organogenesis. , 2015, Trends in genetics : TIG.

[26]  Hidemasa Bono,et al.  CRISPRdirect: software for designing CRISPR/Cas guide RNA with reduced off-target sites , 2014, Bioinform..

[27]  Dongyu Jia,et al.  Analysis of Cell Cycle Switches in Drosophila Oogenesis. , 2015, Methods in molecular biology.

[28]  B. Edgar,et al.  Endocycles: a recurrent evolutionary innovation for post-mitotic cell growth , 2014, Nature Reviews Molecular Cell Biology.

[29]  K. Sugimoto,et al.  Endocycling in the path of plant development. , 2014, Current opinion in plant biology.

[30]  Bruno Amati,et al.  Genome recognition by MYC. , 2014, Cold Spring Harbor perspectives in medicine.

[31]  K. Pozharisski,et al.  Invasion and genome reproduction of the trophoblast cells of placenta junctional zone in the field vole, Microtus rossiaemeridionalis , 2014, Cell biology international.

[32]  Brian R. Calvi,et al.  Induction of endocycles represses apoptosis independently of differentiation and predisposes cells to genome instability , 2014, Development.

[33]  W. Deng,et al.  Tissue repair through cell competition and compensatory cellular hypertrophy in postmitotic epithelia. , 2013, Developmental cell.

[34]  B. Hall,et al.  Building phylogenetic trees from molecular data with MEGA. , 2013, Molecular biology and evolution.

[35]  G. Bell,et al.  Fundamental differences in endoreplication in mammals and Drosophila revealed by analysis of endocycling and endomitotic cells , 2013, Proceedings of the National Academy of Sciences.

[36]  Max J. Feldman,et al.  Control of cell proliferation, endoreduplication, cell size, and cell death by the retinoblastoma-related pathway in maize endosperm , 2013, Proceedings of the National Academy of Sciences.

[37]  R. Machiraju,et al.  Canonical and Atypical E2Fs Regulate the Mammalian Endocycle , 2012, Nature Cell Biology.

[38]  B. Horváth,et al.  Arabidopsis E2FA stimulates proliferation and endocycle separately through RBR‐bound and RBR‐free complexes , 2012, The EMBO journal.

[39]  M. Gho,et al.  CycA is involved in the control of endoreplication dynamics in the Drosophila bristle lineage , 2012, Development.

[40]  M. Crossley,et al.  Homo- and heterodimerization in transcriptional regulation. , 2012, Advances in experimental medicine and biology.

[41]  S. Inagaki,et al.  Programmed induction of endoreduplication by DNA double-strand breaks in Arabidopsis , 2011, Proceedings of the National Academy of Sciences.

[42]  Jean M. Davidson,et al.  Endoreplication: polyploidy with purpose. , 2009, Genes & development.

[43]  J. V. Falvo,et al.  A dimer-specific function of the transcription factor NFATp , 2008, Proceedings of the National Academy of Sciences.

[44]  Daojun Cheng,et al.  Species-specific expansion of C2H2 zinc-finger genes and their expression profiles in silkworm, Bombyx mori. , 2008, Insect biochemistry and molecular biology.

[45]  D. Catalucci,et al.  Jcb: Article , 2022 .

[46]  E. Papoutsakis,et al.  Tumor Suppressor Protein p53 Regulates Megakaryocytic Polyploidization and Apoptosis* , 2008, Journal of Biological Chemistry.

[47]  D. Siaussat,et al.  The 20-hydroxyecdysone-induced signalling pathway in G2/M arrest of Plodia interpunctella imaginal wing cells. , 2008, Insect biochemistry and molecular biology.

[48]  W. Deng,et al.  The Hippo Pathway Promotes Notch Signaling in Regulation of Cell Differentiation, Proliferation, and Oocyte Polarity , 2008, PloS one.

[49]  G. Blobel,et al.  Cyclin D-Cdk4 is regulated by GATA-1 and required for megakaryocyte growth and polyploidization. , 2007, Blood.

[50]  Hannele Ruohola-Baker,et al.  Notch signaling through Tramtrack bypasses the mitosis promoting activity of the JNK pathway in the mitotic-to-endocycle transition of Drosophila follicle cells , 2006, BMC Developmental Biology.

[51]  M. Kalējs,et al.  Mitotic catastrophe and endomitosis in tumour cells: An evolutionary key to a molecular solution , 2005, Cell biology international.

[52]  Wu-Min Deng,et al.  Notch-dependent downregulation of the homeodomain gene cut is required for the mitotic cycle/endocycle switch and cell differentiation in Drosophila follicle cells , 2005, Development.

[53]  J. Frampton,et al.  The Evi1 proto‐oncoprotein blocks endomitosis in megakaryocytes by inhibiting sustained cyclin‐dependent kinase 2 catalytic activity , 2005, British journal of haematology.

[54]  R. Duronio,et al.  New insights into cell cycle control from the Drosophila endocycle , 2005, Oncogene.

[55]  K. Gopinathan,et al.  Comparative analysis of the development of the mandibular salivary glands and the labial silk glands in the mulberry silkworm, Bombyx mori. , 2005, Gene expression patterns : GEP.

[56]  S. Ogawa,et al.  AML-1 is required for megakaryocytic maturation and lymphocytic differentiation, but not for maintenance of hematopoietic stem cells in adult hematopoiesis , 2004, Nature Medicine.

[57]  G. Sarto,et al.  Endomitosis in human trophoblast , 2004, Human Genetics.

[58]  K. Gopinathan,et al.  Cell cycle events during the development of the silk glands in the mulberry silkworm Bombyx mori , 2003, Development Genes and Evolution.

[59]  S. Orkin,et al.  Haematopoietic stem cells retain long-term repopulating activity and multipotency in the absence of stem-cell leukaemia SCL/tal-1 gene , 2003, Nature.

[60]  H. Ruohola-Baker,et al.  Notch-Delta signaling induces a transition from mitotic cell cycle to endocycle in Drosophila follicle cells. , 2001, Development.

[61]  H. Johnston,et al.  Delta signaling from the germ line controls the proliferation and differentiation of the somatic follicle cells during Drosophila oogenesis , 2001 .

[62]  Y. Suzuki,et al.  Embryonic silk gland development in Bombyx: molecular cloning and expression of the Bombyx trachealess gene , 1999, Development Genes and Evolution.

[63]  W. Vainchenker,et al.  Endomitosis of human megakaryocytes are due to abortive mitosis. , 1998, Blood.

[64]  N. Perrimon,et al.  Interaction Between Wingless and Notch Signaling Pathways Mediated by Dishevelled , 1996, Science.

[65]  C. Jackson Megakaryocyte endomitosis: a review. , 1990, International journal of cell cloning.

[66]  T. S. Painter,et al.  ENDOMITOSIS AND POLYRIBOSOME FORMATION* , 1966, Proceedings of the National Academy of Sciences of the United States of America.