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Summary Expression Phenotypes Gene Literature (53) GO Terms (2) Nucleotides (575) Proteins (56) Interactants (319) Wiki
XB-GENEPAGE-489657

Papers associated with lmnb1



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Nuclear F-actin and Lamin A antagonistically modulate nuclear shape., Mishra S, Levy DL., J Cell Sci. July 1, 2022; 135 (13):                             

Extreme nuclear branching in healthy epidermal cells of the Xenopus tail fin., Arbach HE, Harland-Dunaway M, Chang JK, Wills AE., J Cell Sci. September 20, 2018; 131 (18):


Paternal chromosome loss and metabolic crisis contribute to hybrid inviability in Xenopus., Gibeaux R, Acker R, Kitaoka M, Georgiou G, van Kruijsbergen I, Ford B, Marcotte EM, Nomura DK, Kwon T, Veenstra GJC, Heald R., Nature. January 18, 2018; 553 (7688): 337-341.      

Phosphorylation Dynamics Dominate the Regulated Proteome during Early Xenopus Development., Peuchen EH, Cox OF, Sun L, Hebert AS, Coon JJ, Champion MM, Dovichi NJ, Huber PW., Sci Rep. November 15, 2017; 7 (1): 15647.                          

The High-Affinity Interaction between ORC and DNA that Is Required for Replication Licensing Is Inhibited by 2-Arylquinolin-4-Amines., Gardner NJ, Gillespie PJ, Carrington JT, Shanks EJ, McElroy SP, Haagensen EJ, Frearson JA, Woodland A, Blow JJ., Cell Chem Biol. August 17, 2017; 24 (8): 981-992.e4.                        

Reversal of DDK-Mediated MCM Phosphorylation by Rif1-PP1 Regulates Replication Initiation and Replisome Stability Independently of ATR/Chk1., Alver RC, Chadha GS, Gillespie PJ, Blow JJ., Cell Rep. March 7, 2017; 18 (10): 2508-2520.                

Concentration-dependent Effects of Nuclear Lamins on Nuclear Size in Xenopus and Mammalian Cells., Jevtić P, Edens LJ, Li X, Nguyen T, Chen P, Levy DL., J Biol Chem. November 13, 2015; 290 (46): 27557-71.              

A novel role for Celf1 in vegetal RNA localization during Xenopus oogenesis., Bauermeister D, Claußen M, Pieler T., Dev Biol. September 15, 2015; 405 (2): 214-24.            

cPKC regulates interphase nuclear size during Xenopus development., Edens LJ, Levy DL., J Cell Biol. August 18, 2014; 206 (4): 473-83.          

Parvoviruses cause nuclear envelope breakdown by activating key enzymes of mitosis., Porwal M, Cohen S, Snoussi K, Popa-Wagner R, Anderson F, Dugot-Senant N, Wodrich H, Dinsart C, Kleinschmidt JA, Panté N, Kann M., PLoS Pathog. October 1, 2013; 9 (10): e1003671.                      

Transgenic Xenopus laevis for live imaging in cell and developmental biology., Takagi C, Sakamaki K, Morita H, Hara Y, Suzuki M, Kinoshita N, Ueno N., Dev Growth Differ. May 1, 2013; 55 (4): 422-33.            

Upon Wnt stimulation, Rac1 activation requires Rac1 and Vav2 binding to p120-catenin., Valls G, Codina M, Miller RK, Del Valle-Pérez B, Vinyoles M, Caelles C, McCrea PD, García de Herreros A, Duñach M., J Cell Sci. November 15, 2012; 125 (Pt 22): 5288-301.                

Local translation of extranuclear lamin B promotes axon maintenance., Yoon BC, Jung H, Dwivedy A, O'Hare CM, Zivraj KH, Holt CE., Cell. February 17, 2012; 148 (4): 752-64.                              

The different function of single phosphorylation sites of Drosophila melanogaster lamin Dm and lamin C., Zaremba-Czogalla M, Piekarowicz K, Wachowicz K, Kozioł K, Dubińska-Magiera M, Rzepecki R., PLoS One. January 1, 2012; 7 (2): e32649.              

Mitotic progression becomes irreversible in prometaphase and collapses when Wee1 and Cdc25 are inhibited., Potapova TA, Sivakumar S, Flynn JN, Li R, Gorbsky GJ., Mol Biol Cell. April 15, 2011; 22 (8): 1191-206.              

The nucleoporin Nup88 is interacting with nuclear lamin A., Lussi YC, Hügi I, Laurell E, Kutay U, Fahrenkrog B., Mol Biol Cell. April 1, 2011; 22 (7): 1080-90.          

Dynamic regulation of Oct1 during mitosis by phosphorylation and ubiquitination., Kang J, Goodman B, Zheng Y, Tantin D., PLoS One. January 1, 2011; 6 (8): e23872.              

The lamin protein family., Dittmer TA, Misteli T., Genome Biol. January 1, 2011; 12 (5): 222.            

Lamin B counteracts the kinesin Eg5 to restrain spindle pole separation during spindle assembly., Goodman B, Channels W, Qiu M, Iglesias P, Yang G, Zheng Y., J Biol Chem. November 5, 2010; 285 (45): 35238-44.        

Requirement for lamin B receptor and its regulation by importin {beta} and phosphorylation in nuclear envelope assembly during mitotic exit., Lu X, Shi Y, Lu Q, Ma Y, Luo J, Wang Q, Ji J, Jiang Q, Zhang C., J Biol Chem. October 22, 2010; 285 (43): 33281-93.

The nucleoporin Nup188 controls passage of membrane proteins across the nuclear pore complex., Theerthagiri G, Eisenhardt N, Schwarz H, Antonin W., J Cell Biol. June 28, 2010; 189 (7): 1129-42.              

Requirement for Nudel and dynein for assembly of the lamin B spindle matrix., Ma L, Tsai MY, Wang S, Lu B, Chen R, Yates JR, Zhu X, Zheng Y., Nat Cell Biol. March 1, 2009; 11 (3): 247-56.            

Apoptosis leads to a degradation of vital components of active nuclear transport and a dissociation of the nuclear lamina., Kramer A, Liashkovich I, Oberleithner H, Ludwig S, Mazur I, Shahin V., Proc Natl Acad Sci U S A. August 12, 2008; 105 (32): 11236-41.

Enhancement of axonal regeneration by in vitro conditioning and its inhibition by cyclopentenone prostaglandins., Tonge D, Chan K, Zhu N, Panjwani A, Arno M, Lynham S, Ward M, Snape A, Pizzey J., J Cell Sci. August 1, 2008; 121 (Pt 15): 2565-77.                        

The tektin family of microtubule-stabilizing proteins., Amos LA., Genome Biol. January 1, 2008; 9 (7): 229.      

Lamin B receptor plays a role in stimulating nuclear envelope production and targeting membrane vesicles to chromatin during nuclear envelope assembly through direct interaction with importin beta., Ma Y, Cai S, Lv Q, Jiang Q, Zhang Q, Sodmergen, Zhai Z, Zhang C., J Cell Sci. February 1, 2007; 120 (Pt 3): 520-30.

A mitotic lamin B matrix induced by RanGTP required for spindle assembly., Tsai MY, Wang S, Heidinger JM, Shumaker DK, Adam SA, Goldman RD, Zheng Y., Science. March 31, 2006; 311 (5769): 1887-93.

The nuclear envelope lamina network has elasticity and a compressibility limit suggestive of a molecular shock absorber., Dahl KN, Kahn SM, Wilson KL, Discher DE., J Cell Sci. September 15, 2004; 117 (Pt 20): 4779-86.

The lamin B receptor of Drosophila melanogaster., Wagner N, Weber D, Seitz S, Krohne G., J Cell Sci. April 15, 2004; 117 (Pt 10): 2015-28.

Regulation of binding of lamin B receptor to chromatin by SR protein kinase and cdc2 kinase in Xenopus egg extracts., Takano M, Koyama Y, Ito H, Hoshino S, Onogi H, Hagiwara M, Furukawa K, Horigome T., J Biol Chem. March 26, 2004; 279 (13): 13265-71.

The lamina-associated polypeptide 2 (LAP2) isoforms beta, gamma and omega of zebrafish: developmental expression and behavior during the cell cycle., Schoft VK, Beauvais AJ, Lang C, Gajewski A, Prüfert K, Winkler C, Akimenko MA, Paulin-Levasseur M, Krohne G., J Cell Sci. June 15, 2003; 116 (Pt 12): 2505-17.

The binding of lamin B receptor to chromatin is regulated by phosphorylation in the RS region., Takano M, Takeuchi M, Ito H, Furukawa K, Sugimoto K, Omata S, Horigome T., Eur J Biochem. February 1, 2002; 269 (3): 943-53.

Nuclear pore complexes form immobile networks and have a very low turnover in live mammalian cells., Daigle N, Beaudouin J, Hartnell L, Imreh G, Hallberg E, Lippincott-Schwartz J, Ellenberg J., J Cell Biol. July 9, 2001; 154 (1): 71-84.            

Head and/or CaaX domain deletions of lamin proteins disrupt preformed lamin A and C but not lamin B structure in mammalian cells., Izumi M, Vaughan OA, Hutchison CJ, Gilbert DM., Mol Biol Cell. December 1, 2000; 11 (12): 4323-37.

Incorporation of the nuclear pore basket protein nup153 into nuclear pore structures is dependent upon lamina assembly: evidence from cell-free extracts of Xenopus eggs., Smythe C, Jenkins HE, Hutchison CJ., EMBO J. August 1, 2000; 19 (15): 3918-31.

Review: lamina-associated polypeptide 2 isoforms and related proteins in cell cycle-dependent nuclear structure dynamics., Dechat T, Vlcek S, Foisner R., J Struct Biol. April 1, 2000; 129 (2-3): 335-45.

Distribution of emerin during the cell cycle., Dabauvalle MC, Müller E, Ewald A, Kress W, Krohne G, Müller CR., Eur J Cell Biol. October 1, 1999; 78 (10): 749-56.

Subcellular distribution of the Xenopus p58/lamin B receptor in oocytes and eggs., Gajewski A, Krohne G., J Cell Sci. August 1, 1999; 112 ( Pt 15) 2583-96.

Translational control of nuclear lamin B1 mRNA during oogenesis and early development of Xenopus., Ralle T, Gremmels D, Stick R., Mech Dev. June 1, 1999; 84 (1-2): 89-101.

Molecular characterization and developmentally regulated expression of Xenopus lamina-associated polypeptide 2 (XLAP2)., Lang C, Paulin-Levasseur M, Gajewski A, Alsheimer M, Benavente R, Krohne G., J Cell Sci. March 1, 1999; 112 ( Pt 5) 749-59.                

Chromatin binding and polymerization of the endogenous Xenopus egg lamins: the opposing effects of glycogen and ATP., Lourim D, Krohne G., J Cell Sci. December 18, 1998; 111 ( Pt 24) 3675-86.

The role of keratin filaments during nuclear envelope reassembly in Xenopus egg extracts., Zhang B, Chen Y, Han Z, Ris H, Zhai Z., FEBS Lett. May 22, 1998; 428 (1-2): 52-6.

Cytochrome c activation of CPP32-like proteolysis plays a critical role in a Xenopus cell-free apoptosis system., Kluck RM, Martin SJ, Hoffman BM, Zhou JS, Green DR, Newmeyer DD., EMBO J. August 1, 1997; 16 (15): 4639-49.

cDNA cloning of nuclear localization signal binding protein NBP60, a rat homologue of lamin B receptor, and identification of binding sites of human lamin B receptor for nuclear localization signals and chromatin., Kawahire S, Takeuchi M, Gohshi T, Sasagawa S, Shimada M, Takahashi M, Abe TK, Ueda T, Kuwano R, Hikawa A, Ichimura T, Omata S, Horigome T., J Biochem. May 1, 1997; 121 (5): 881-9.

Characterization and quantitation of three B-type lamins in Xenopus oocytes and eggs: increase of lamin LI protein synthesis during meiotic maturation., Lourim D, Kempf A, Krohne G., J Cell Sci. July 1, 1996; 109 ( Pt 7) 1775-85.

Partial purification and characterization of a protein kinase that is activated by nuclear localization signal peptides., Kurihara T, Hori M, Takeda H, Inoue M, Yoneda Y., FEBS Lett. February 19, 1996; 380 (3): 241-5.

Structural organization of the human gene (LMNB1) encoding nuclear lamin B1., Lin F, Worman HJ., Genomics. May 20, 1995; 27 (2): 230-6.

Immunocytochemistry of annulate lamellae: potential cell biological markers for studies of cell differentiation and pathology., Cordes VC, Gajewski A, Stumpp S, Krohne G., Differentiation. April 1, 1995; 58 (4): 307-12.

Immunological characterization of lamins in the nuclear matrix of onion cells., Mínguez A, Moreno Díaz de la Espina S., J Cell Sci. September 1, 1993; 106 ( Pt 1) 431-9.

Amino acid sequence and molecular characterization of murine lamin B as deduced from cDNA clones., Höger TH, Krohne G, Franke WW., Eur J Cell Biol. December 1, 1988; 47 (2): 283-90.

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