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Literature DB >> 18081190

Growth in the larval zebrafish pectoral fin and trunk musculature.

Sara E Patterson¹, Louisa B Mook, Stephen H Devoto.

Abstract

After initial patterning, muscle in the trunk and fins of teleosts grows extensively. Here, we describe muscle growth in zebrafish, with emphasis on the pectoral fin musculature. In the trunk, slow muscle fibers differentiate first. In contrast, slow muscle does not appear in the pectoral fin until the beginning of the juvenile period. Mosaic hyperplasia contributes to trunk muscle growth, and new fibers are apparent within the muscle as early as 6 mm standard length. In the pectoral fin muscle, mosaic hyperplasia is not evident at any examined stage. Instead, the predominant mode of hyperplasia is stratified. In larval pectoral fin muscle new fibers appear subjacent to the skin, and this correlates with the expression of myogenic genes such as muscle regulatory factors and Pax7. Our results suggest that regulation of fiber type development and muscle growth may differ in the pectoral fin and trunk.

Entities: Disease Gene Species

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Year: 2008 PMID： 18081190 DOI： 10.1002/dvdy.21400

Source DB: PubMed Journal: Dev Dyn ISSN： 1058-8388 Impact factor: 3.780

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Cited

23 in total

1. Differential requirements for myogenic regulatory factors distinguish medial and lateral somitic, cranial and fin muscle fibre populations.

Authors: Yaniv Hinits; Daniel P S Osborn; Simon M Hughes
Journal: Development Date: 2009-02 Impact factor: 6.868

2. Cell fusion is differentially regulated in zebrafish post-embryonic slow and fast muscle.

Authors: Kimberly J Hromowyk; Jared C Talbot; Brit L Martin; Paul M L Janssen; Sharon L Amacher
Journal: Dev Biol Date: 2020-03-10 Impact factor: 3.582

3. Muscle precursor cell movements in zebrafish are dynamic and require Six family genes.

Authors: Jared C Talbot; Emily M Teets; Dhanushika Ratnayake; Phan Q Duy; Peter D Currie; Sharon L Amacher
Journal: Development Date: 2019-05-15 Impact factor: 6.868

4. Four-and-a-half LIM domains protein 2 (FHL2) is associated with the development of craniofacial musculature in the teleost fish Sparus aurata.

Authors: Marta S Rafael; Vincent Laizé; Anabela Bensimon-Brito; Ricardo B Leite; Roland Schüle; M Leonor Cancela
Journal: Cell Mol Life Sci Date: 2011-07-08 Impact factor: 9.261

5. Mutations in MYLPF Cause a Novel Segmental Amyoplasia that Manifests as Distal Arthrogryposis.

Authors: Jessica X Chong; Jared C Talbot; Emily M Teets; Samantha Previs; Brit L Martin; Kathryn M Shively; Colby T Marvin; Arthur S Aylsworth; Reem Saadeh-Haddad; Ulrich A Schatz; Francesca Inzana; Tawfeg Ben-Omran; Fatima Almusafri; Mariam Al-Mulla; Kati J Buckingham; Tamar Harel; Hagar Mor-Shaked; Periyasamy Radhakrishnan; Katta M Girisha; Shalini S Nayak; Anju Shukla; Klaus Dieterich; Julien Faure; John Rendu; Yline Capri; Xenia Latypova; Deborah A Nickerson; David M Warshaw; Paul M L Janssen; Sharon L Amacher; Michael J Bamshad
Journal: Am J Hum Genet Date: 2020-07-23 Impact factor: 11.025

6. In vitro indeterminate teleost myogenesis appears to be dependent on Pax3.

Authors: Jacob Michael Froehlich; Nicholas J Galt; Matthew J Charging; Ben M Meyer; Peggy R Biga
Journal: In Vitro Cell Dev Biol Anim Date: 2013-04-24 Impact factor: 2.416

Review 7. Metamorphosis in teleosts.

Authors: Sarah K McMenamin; David M Parichy
Journal: Curr Top Dev Biol Date: 2013 Impact factor: 4.897