Expression of the prospective mesoderm genes twist, snail, and mef2 in penaeid shrimp

In penaeid shrimp, mesoderm forms from two sources: naupliar mesoderm founder cells, which invaginate during gastrulation, and posterior mesodermal stem cells called mesoteloblasts , which undergo characteristic teloblastic divisions. The primordial mesoteloblast descends from the ventral mesendobla...

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Veröffentlicht in:Development genes and evolution 2016-07, Vol.226 (4), p.317-324
Hauptverfasser: Wei, Jiankai, Glaves, Richard Samuel Elliot, Sellars, Melony J., Xiang, Jianhai, Hertzler, Philip L.
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container_issue 4
container_start_page 317
container_title Development genes and evolution
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creator Wei, Jiankai
Glaves, Richard Samuel Elliot
Sellars, Melony J.
Xiang, Jianhai
Hertzler, Philip L.
description In penaeid shrimp, mesoderm forms from two sources: naupliar mesoderm founder cells, which invaginate during gastrulation, and posterior mesodermal stem cells called mesoteloblasts , which undergo characteristic teloblastic divisions. The primordial mesoteloblast descends from the ventral mesendoblast, which arrests in cell division at the 32-cell stage and ingresses with its sister dorsal mesendoblast prior to naupliar mesoderm invagination. The naupliar mesoderm forms the muscles of the naupliar appendages (first and second antennae and mandibles), while the mesoteloblasts form the mesoderm, including the muscles, of subsequently formed posterior segments. To better understand the mechanism of mesoderm and muscle formation in penaeid shrimp, twist , snail , and mef2 cDNAs were identified from transcriptomes of Penaeus vannamei , P. japonicus , P. chinensis , and P. monodon . A single Twist ortholog was found, with strong inferred amino acid conservation across all three species. Multiple Snail protein variants were detected, which clustered in a phylogenetic tree with other decapod crustacean Snail sequences. Two closely-related mef2 variants were found in P. vannamei . The developmental mRNA expression of these genes was studied by qPCR in P. vannamei embryos, larvae, and postlarvae. Expression of Pv- twist and Pv- snail began during the limb bud stage and continued through larval stages to the postlarva. Surprisingly, Pv- mef2 expression was found in all stages from the zygote to the postlarva, with the highest expression in the limb bud and protozoeal stages. The results add comparative data on the development of anterior and posterior mesoderm in malacostracan crustaceans, and should stimulate further studies on mesoderm and muscle development in penaeid shrimp.
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The developmental mRNA expression of these genes was studied by qPCR in P. vannamei embryos, larvae, and postlarvae. Expression of Pv- twist and Pv- snail began during the limb bud stage and continued through larval stages to the postlarva. Surprisingly, Pv- mef2 expression was found in all stages from the zygote to the postlarva, with the highest expression in the limb bud and protozoeal stages. 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subjects Amino Acid Sequence
Animal Genetics and Genomics
Animals
Biomedical and Life Sciences
Cell Biology
Developmental Biology
Evolutionary Biology
Life Sciences
Mesoderm - metabolism
Penaeidae - genetics
Penaeidae - metabolism
Plant Genetics and Genomics
Sequence Alignment
Short Communication
Snail Family Transcription Factors - chemistry
Snail Family Transcription Factors - genetics
Transcription Factors - chemistry
Transcription Factors - genetics
Twist Transcription Factors - chemistry
Twist Transcription Factors - genetics
Zoology
title Expression of the prospective mesoderm genes twist, snail, and mef2 in penaeid shrimp
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