Literature DB >> 16580994

Systematic analysis of the transcriptional switch inducing migration of border cells.

Lodovica Borghese1, Georgina Fletcher, Juliette Mathieu, Ann Atzberger, William C Eades, Ross L Cagan, Pernille Rørth.   

Abstract

Cell migration within a natural context is tightly controlled, often by specific transcription factors. However, the switch from stationary to migratory behavior is poorly understood. Border cells perform a spatially and temporally controlled invasive migration during Drosophila oogenesis. Slbo, a C/EBP family transcriptional activator, is required for them to become migratory. We purified wild-type and slbo mutant border cells as well as nonmigratory follicle cells and performed comparative whole-genome expression profiling, followed by functional tests of the contributions of identified targets to migration. About 300 genes were significantly upregulated in border cells, many dependent on Slbo. Among these, the microtubule regulator Stathmin was strongly upregulated and was required for normal migration. Actin cytoskeleton regulators were also induced, including, surprisingly, a large cluster of "muscle-specific" genes. We conclude that Slbo induces multiple cytoskeletal effectors, and that each contributes to the behavioral changes in border cells.

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Year:  2006        PMID: 16580994      PMCID: PMC2955450          DOI: 10.1016/j.devcel.2006.02.004

Source DB:  PubMed          Journal:  Dev Cell        ISSN: 1534-5807            Impact factor:   12.270


  40 in total

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Journal:  Cancer Cell       Date:  2005-01       Impact factor: 31.743

6.  Genes associated with fast glioma cell migration in vitro and in vivo.

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7.  The level of C/EBP protein is critical for cell migration during Drosophila oogenesis and is tightly controlled by regulated degradation.

Authors:  P Rørth; K Szabo; G Texido
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Review 9.  Command and control: regulatory pathways controlling invasive behavior of the border cells.

Authors:  D J Montell
Journal:  Mech Dev       Date:  2001-07       Impact factor: 1.882

10.  The genome sequence of Drosophila melanogaster.

Authors:  M D Adams; S E Celniker; R A Holt; C A Evans; J D Gocayne; P G Amanatides; S E Scherer; P W Li; R A Hoskins; R F Galle; R A George; S E Lewis; S Richards; M Ashburner; S N Henderson; G G Sutton; J R Wortman; M D Yandell; Q Zhang; L X Chen; R C Brandon; Y H Rogers; R G Blazej; M Champe; B D Pfeiffer; K H Wan; C Doyle; E G Baxter; G Helt; C R Nelson; G L Gabor; J F Abril; A Agbayani; H J An; C Andrews-Pfannkoch; D Baldwin; R M Ballew; A Basu; J Baxendale; L Bayraktaroglu; E M Beasley; K Y Beeson; P V Benos; B P Berman; D Bhandari; S Bolshakov; D Borkova; M R Botchan; J Bouck; P Brokstein; P Brottier; K C Burtis; D A Busam; H Butler; E Cadieu; A Center; I Chandra; J M Cherry; S Cawley; C Dahlke; L B Davenport; P Davies; B de Pablos; A Delcher; Z Deng; A D Mays; I Dew; S M Dietz; K Dodson; L E Doup; M Downes; S Dugan-Rocha; B C Dunkov; P Dunn; K J Durbin; C C Evangelista; C Ferraz; S Ferriera; W Fleischmann; C Fosler; A E Gabrielian; N S Garg; W M Gelbart; K Glasser; A Glodek; F Gong; J H Gorrell; Z Gu; P Guan; M Harris; N L Harris; D Harvey; T J Heiman; J R Hernandez; J Houck; D Hostin; K A Houston; T J Howland; M H Wei; C Ibegwam; M Jalali; F Kalush; G H Karpen; Z Ke; J A Kennison; K A Ketchum; B E Kimmel; C D Kodira; C Kraft; S Kravitz; D Kulp; Z Lai; P Lasko; Y Lei; A A Levitsky; J Li; Z Li; Y Liang; X Lin; X Liu; B Mattei; T C McIntosh; M P McLeod; D McPherson; G Merkulov; N V Milshina; C Mobarry; J Morris; A Moshrefi; S M Mount; M Moy; B Murphy; L Murphy; D M Muzny; D L Nelson; D R Nelson; K A Nelson; K Nixon; D R Nusskern; J M Pacleb; M Palazzolo; G S Pittman; S Pan; J Pollard; V Puri; M G Reese; K Reinert; K Remington; R D Saunders; F Scheeler; H Shen; B C Shue; I Sidén-Kiamos; M Simpson; M P Skupski; T Smith; E Spier; A C Spradling; M Stapleton; R Strong; E Sun; R Svirskas; C Tector; R Turner; E Venter; A H Wang; X Wang; Z Y Wang; D A Wassarman; G M Weinstock; J Weissenbach; S M Williams; K C Worley; D Wu; S Yang; Q A Yao; J Ye; R F Yeh; J S Zaveri; M Zhan; G Zhang; Q Zhao; L Zheng; X H Zheng; F N Zhong; W Zhong; X Zhou; S Zhu; X Zhu; H O Smith; R A Gibbs; E W Myers; G M Rubin; J C Venter
Journal:  Science       Date:  2000-03-24       Impact factor: 47.728
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  44 in total

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2.  Direct activation of Shroom3 transcription by Pitx proteins drives epithelial morphogenesis in the developing gut.

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Journal:  Development       Date:  2010-04       Impact factor: 6.868

3.  Unraveling the molecular targets pertinent to junction restructuring events during spermatogenesis using the Adjudin-induced germ cell depletion model.

Authors:  Weiliang Xia; Dolores D Mruk; Will M Lee; C Yan Cheng
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Review 4.  Drosophila follicle cells: morphogenesis in an eggshell.

Authors:  Xiaodong Wu; Pradeep Singh Tanwar; Laurel A Raftery
Journal:  Semin Cell Dev Biol       Date:  2008-01-20       Impact factor: 7.727

Review 5.  GEF what? Dock180 and related proteins help Rac to polarize cells in new ways.

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6.  A hormonal cue promotes timely follicle cell migration by modulating transcription profiles.

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Journal:  Mech Dev       Date:  2017-06-10       Impact factor: 1.882

7.  Stathmin is required for stability of the Drosophila neuromuscular junction.

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8.  Psidin, a conserved protein that regulates protrusion dynamics and cell migration.

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Journal:  Genes Dev       Date:  2011-03-15       Impact factor: 11.361

9.  Drosophila katanin is a microtubule depolymerase that regulates cortical-microtubule plus-end interactions and cell migration.

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Journal:  Mech Dev       Date:  2017-04-18       Impact factor: 1.882
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