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Summary Expression Phenotypes Gene Literature (64) GO Terms (6) Nucleotides (3431) Proteins (51) Interactants (906) Wiki
XB-GENEPAGE-491937

Papers associated with acta1



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Time-resolved quantitative proteomic analysis of the developing Xenopus otic vesicle reveals putative congenital hearing loss candidates., Baxi AB, Nemes P, Moody SA., iScience. September 15, 2023; 26 (9): 107665.                          

Predation threats for a 24-h period activated the extension of axons in the brains of Xenopus tadpoles., Mori T, Kitani Y, Hatakeyama D, Machida K, Goto-Inoue N, Hayakawa S, Yamamoto N, Kashiwagi K, Kashiwagi A., Sci Rep. July 16, 2020; 10 (1): 11737.                    

Centering and symmetry breaking in confined contracting actomyosin networks., Ierushalmi N, Malik-Garbi M, Manhart A, Abu Shah E, Goode BL, Mogilner A, Keren K., Elife. April 21, 2020; 9                         

Role of the visual experience-dependent nascent proteome in neuronal plasticity., Liu HH, McClatchy DB, Schiapparelli L, Shen W, Yates JR, Cline HT., Elife. February 7, 2018; 7                     

Heart regeneration in adult Xenopus tropicalis after apical resection., Liao S, Dong W, Lv L, Guo H, Yang J, Zhao H, Huang R, Yuan Z, Chen Y, Chen Y, Feng S, Zheng X, Huang J, Huang W, Qi X, Cai D., Cell Biosci. December 13, 2017; 7 70.                

PFKFB4 control of AKT signaling is essential for premigratory and migratory neural crest formation., Figueiredo AL, Maczkowiak F, Borday C, Pla P, Sittewelle M, Pegoraro C, Monsoro-Burq AH., Development. November 15, 2017; 144 (22): 4183-4194.                                

High variability of expression profiles of homeologous genes for Wnt, Hh, Notch, and Hippo signaling pathways in Xenopus laevis., Michiue T, Yamamoto T, Yasuoka Y, Goto T, Ikeda T, Nagura K, Nakayama T, Taira M, Kinoshita T., Dev Biol. June 15, 2017; 426 (2): 270-290.                  

A Tissue-Mapped Axolotl De Novo Transcriptome Enables Identification of Limb Regeneration Factors., Bryant DM, Johnson K, DiTommaso T, Tickle T, Couger MB, Payzin-Dogru D, Lee TJ, Leigh ND, Kuo TH, Davis FG, Bateman J, Bryant S, Guzikowski AR, Tsai SL, Coyne S, Ye WW, Freeman RM, Peshkin L, Tabin CJ, Regev A, Haas BJ, Whited JL., Cell Rep. January 17, 2017; 18 (3): 762-776.                          

Probing the biology of cell boundary conditions through confinement of Xenopus cell-free cytoplasmic extracts., Bermudez JG, Chen H, Einstein LC, Good MC., Genesis. January 1, 2017; 55 (1-2):     

RNA-Seq and microarray analysis of the Xenopus inner ear transcriptome discloses orthologous OMIM(®) genes for hereditary disorders of hearing and balance., Ramírez-Gordillo D, Powers TR, van Velkinburgh JC, Trujillo-Provencio C, Schilkey F, Serrano EE., BMC Res Notes. November 18, 2015; 8 691.      

Lamellipodin promotes actin assembly by clustering Ena/VASP proteins and tethering them to actin filaments., Hansen SD, Mullins RD., Elife. January 6, 2015; 4                         

An adhesome comprising laminin, dystroglycan and myosin IIA is required during notochord development in Xenopus laevis., Buisson N, Sirour C, Moreau N, Denker E, Le Bouffant R, Goullancourt A, Darribère T, Bello V., Development. December 1, 2014; 141 (23): 4569-79.                      

Essential role of the zinc finger transcription factor Casz1 for mammalian cardiac morphogenesis and development., Liu Z, Li W, Ma X, Ding N, Spallotta F, Southon E, Tessarollo L, Gaetano C, Mukouyama YS, Thiele CJ., J Biol Chem. October 24, 2014; 289 (43): 29801-16.

Proteomic analysis of fibroblastema formation in regenerating hind limbs of Xenopus laevis froglets and comparison to axolotl., Rao N, Song F, Jhamb D, Wang M, Milner DJ, Price NM, Belecky-Adams TL, Palakal MJ, Cameron JA, Li B, Chen X, Stocum DL., BMC Dev Biol. July 25, 2014; 14 32.                        

Occupancy of tissue-specific cis-regulatory modules by Otx2 and TLE/Groucho for embryonic head specification., Yasuoka Y, Suzuki Y, Takahashi S, Someya H, Sudou N, Haramoto Y, Cho KW, Asashima M, Sugano S, Taira M., Nat Commun. July 9, 2014; 5 4322.        

Pax3 and Zic1 trigger the early neural crest gene regulatory network by the direct activation of multiple key neural crest specifiers., Plouhinec JL, Roche DD, Pegoraro C, Figueiredo AL, Maczkowiak F, Brunet LJ, Milet C, Vert JP, Pollet N, Harland RM, Monsoro-Burq AH., Dev Biol. February 15, 2014; 386 (2): 461-72.                                            

Metabolic regulation of CaMKII protein and caspases in Xenopus laevis egg extracts., McCoy F, Darbandi R, Chen SI, Eckard L, Dodd K, Jones K, Baucum AJ, Gibbons JA, Lin SH, Colbran RJ, Nutt LK., J Biol Chem. March 29, 2013; 288 (13): 8838-48.          

Single blastomere expression profiling of Xenopus laevis embryos of 8 to 32-cells reveals developmental asymmetry., Flachsova M, Sindelka R, Kubista M., Sci Rep. January 1, 2013; 3 2278.      

Cadherin-dependent differential cell adhesion in Xenopus causes cell sorting in vitro but not in the embryo., Ninomiya H, David R, Damm EW, Fagotto F, Niessen CM, Winklbauer R., J Cell Sci. April 15, 2012; 125 (Pt 8): 1877-83.              

EBF proteins participate in transcriptional regulation of Xenopus muscle development., Green YS, Vetter ML., Dev Biol. October 1, 2011; 358 (1): 240-50.                    

Negative modulation of bone morphogenetic protein signaling by Dullard during wing vein formation in Drosophila., Liu Z, Matsuoka S, Enoki A, Yamamoto T, Furukawa K, Yamasaki Y, Nishida Y, Sugiyama S., Dev Growth Differ. August 1, 2011; 53 (6): 822-41.

The nephrogenic potential of the transcription factors osr1, osr2, hnf1b, lhx1 and pax8 assessed in Xenopus animal caps., Drews C, Senkel S, Ryffel GU., BMC Dev Biol. January 31, 2011; 11 5.              

Distinct roles for telethonin N-versus C-terminus in sarcomere assembly and maintenance., Sadikot T, Hammond CR, Ferrari MB., Dev Dyn. April 1, 2010; 239 (4): 1124-35.                  

N- and E-cadherins in Xenopus are specifically required in the neural and non-neural ectoderm, respectively, for F-actin assembly and morphogenetic movements., Nandadasa S, Tao Q, Menon NR, Heasman J, Wylie C., Development. April 1, 2009; 136 (8): 1327-38.                      

Bio-mimetic surface engineering of plasmid-loaded nanoparticles for active intracellular trafficking by actin comet-tail motility., Ng CP, Goodman TT, Park IK, Pun SH., Biomaterials. February 1, 2009; 30 (5): 951-8.

Close packing of Listeria monocytogenes ActA, a natively unfolded protein, enhances F-actin assembly without dimerization., Footer MJ, Lyo JK, Theriot JA., J Biol Chem. August 29, 2008; 283 (35): 23852-62.

Action mechanism of PEGylated magainin 2 analogue peptide., Imura Y, Nishida M, Matsuzaki K., Biochim Biophys Acta. October 1, 2007; 1768 (10): 2578-85.

Adapter protein SH2-Bbeta stimulates actin-based motility of Listeria monocytogenes in a vasodilator-stimulated phosphoprotein (VASP)-dependent fashion., Diakonova M, Helfer E, Seveau S, Swanson JA, Kocks C, Rui L, Carlier MF, Carter-Su C., Infect Immun. July 1, 2007; 75 (7): 3581-93.

Changing a limb muscle growth program into a resorption program., Cai L, Das B, Brown DD., Dev Biol. April 1, 2007; 304 (1): 260-71.                      

p38 MAP kinase regulates the expression of XMyf5 and affects distinct myogenic programs during Xenopus development., Keren A, Bengal E, Frank D., Dev Biol. December 1, 2005; 288 (1): 73-86.              

Bacterial shape and ActA distribution affect initiation of Listeria monocytogenes actin-based motility., Rafelski SM, Theriot JA., Biophys J. September 1, 2005; 89 (3): 2146-58.

DRAGON, a bone morphogenetic protein co-receptor., Samad TA, Rebbapragada A, Bell E, Zhang Y, Zhang Y, Sidis Y, Jeong SJ, Campagna JA, Perusini S, Fabrizio DA, Schneyer AL, Lin HY, Brivanlou AH, Attisano L, Woolf CJ., J Biol Chem. April 8, 2005; 280 (14): 14122-9.                  

Xenopus Id3 is required downstream of Myc for the formation of multipotent neural crest progenitor cells., Light W, Vernon AE, Lasorella A, Iavarone A, LaBonne C., Development. April 1, 2005; 132 (8): 1831-41.              

High affinity, paralog-specific recognition of the Mena EVH1 domain by a miniature protein., Golemi-Kotra D, Mahaffy R, Footer MJ, Holtzman JH, Pollard TD, Theriot JA, Schepartz A., J Am Chem Soc. January 14, 2004; 126 (1): 4-5.

Embryonic expression of Xenopus laevis SOX7., Fawcett SR, Klymkowsky MW., Gene Expr Patterns. January 1, 2004; 4 (1): 29-33.          

Mechanisms, mechanics and function of epithelial-mesenchymal transitions in early development., Shook D, Keller R., Mech Dev. November 1, 2003; 120 (11): 1351-83.

Nuclear translocation of Xenopus laevis paxillin., Ogawa M, Hiraoka Y, Aiso S., Biochem Biophys Res Commun. May 16, 2003; 304 (4): 676-83.

Possible coupling of prostaglandin E receptor EP(1) to TRP5 expressed in Xenopus laevis oocytes., Tabata H, Tanaka S, Sugimoto Y, Kanki H, Kaneko S, Ichikawa A., Biochem Biophys Res Commun. November 1, 2002; 298 (3): 398-402.

Position-dependent hydrophobicity of the antimicrobial magainin peptide affects the mode of peptide-lipid interactions and selective toxicity., Tachi T, Epand RF, Epand RM, Matsuzaki K., Biochemistry. August 27, 2002; 41 (34): 10723-31.

Functional characterization of human NBC4 as an electrogenic Na+-HCO cotransporter (NBCe2)., Virkki LV, Wilson DA, Vaughan-Jones RD, Boron WF., Am J Physiol Cell Physiol. June 1, 2002; 282 (6): C1278-89.

The plasma membrane-associated protein RS1 decreases transcription of the transporter SGLT1 in confluent LLC-PK1 cells., Korn T, Kühlkamp T, Track C, Schatz I, Baumgarten K, Gorboulev V, Koepsell H., J Biol Chem. November 30, 2001; 276 (48): 45330-40.

Interactions of the novel antimicrobial peptide buforin 2 with lipid bilayers: proline as a translocation promoting factor., Kobayashi S, Takeshima K, Park CB, Kim SC, Matsuzaki K., Biochemistry. July 25, 2000; 39 (29): 8648-54.

Mammalian development: new trick for an old dog., Graham A., Curr Biol. June 1, 2000; 10 (11): R401-3.

Actin and phosphoinositide binding by the ActA protein of the bacterial pathogen Listeria monocytogenes., Cicchetti G, Maurer P, Wagener P, Kocks C., J Biol Chem. November 19, 1999; 274 (47): 33616-26.

A comparative study of the actin-based motilities of the pathogenic bacteria Listeria monocytogenes, Shigella flexneri and Rickettsia conorii., Gouin E, Gantelet H, Egile C, Lasa I, Ohayon H, Villiers V, Gounon P, Sansonetti PJ, Cossart P., J Cell Sci. June 1, 1999; 112 ( Pt 11) 1697-708.

Anaphase A chromosome movement and poleward spindle microtubule flux occur At similar rates in Xenopus extract spindles., Desai A, Maddox PS, Mitchison TJ, Salmon ED., J Cell Biol. May 4, 1998; 141 (3): 703-13.            

Identification of two regions in the N-terminal domain of ActA involved in the actin comet tail formation by Listeria monocytogenes., Lasa I, Gouin E, Goethals M, Vancompernolle K, David V, Vandekerckhove J, Cossart P., EMBO J. April 1, 1997; 16 (7): 1531-40.

Actin polymerization is induced by Arp2/3 protein complex at the surface of Listeria monocytogenes., Welch MD, Iwamatsu A, Mitchison TJ., Nature. January 16, 1997; 385 (6613): 265-9.

Chemical modification and inactivation of rat liver arginase by N-bromosuccinimide: reaction with His141., Daghigh F, Cavalli RC, Soprano DR, Ash DE., Arch Biochem Biophys. March 1, 1996; 327 (1): 107-12.

Developmental expression and differential regulation by retinoic acid of Xenopus COUP-TF-A and COUP-TF-B., van der Wees J, Matharu PJ, de Roos K, Destrée OH, Godsave SF, Durston AJ, Sweeney GE., Mech Dev. February 1, 1996; 54 (2): 173-84.          

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