Analysis of RNA-Seq Data Reveals Involvement of JAK/STAT Signalling During Leg Regeneration in the Cricket Gryllus Bimaculatus

Overview

Journal Development

Specialty Biology

Date 2013 Jan 25

PMID 23344706

Citations 22

Authors

Tetsuya Bando

Yoshiyasu Ishimaru

Takuro Kida

Yoshimasa Hamada

Yuji Matsuoka

Taro Nakamura

Hideyo Ohuchi

Sumihare Noji

Taro Mito

Affiliations

Soon will be listed here.

Abstract

In the cricket Gryllus bimaculatus, missing distal parts of the amputated leg are regenerated from the blastema, a population of dedifferentiated proliferating cells that forms at the distal tip of the leg stump. To identify molecules involved in blastema formation, comparative transcriptome analysis was performed between regenerating and normal unamputated legs. Components of JAK/STAT signalling were upregulated more than twofold in regenerating legs. To verify their involvement, Gryllus homologues of the interleukin receptor Domeless (Gb'dome), the Janus kinase Hopscotch (Gb'hop) and the transcription factor STAT (Gb'Stat) were cloned, and RNAi was performed against these genes. Gb'dome(RNAi), Gb'hop(RNAi) and Gb'Stat(RNAi) crickets showed defects in leg regeneration. Blastema expression of Gb'cyclinE was decreased in the Gb'Stat(RNAi) cricket compared with that in the control. Hyperproliferation of blastema cells caused by Gb'fat(RNAi) or Gb'warts(RNAi) was suppressed by RNAi against Gb'Stat. The results suggest that JAK/STAT signalling regulates blastema cell proliferation during leg regeneration.

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