家蚕变态期翅芽发育特征的转录组分析

Transcriptomic analysis of developmental features of Bombyx mori wing disc during metamorphosis.

作者信息

Ou Jun, Deng Hui-Min, Zheng Si-Chun, Huang Li-Hua, Feng Qi-Li, Liu Lin

机构信息

Laboratory of Molecular and Developmental Entomology, Guangdong Provincial Key Lab of Biotechnology for Plant Development, School of Life Sciences, South China Normal University, Guangzhou 510631, China.

出版信息

BMC Genomics. 2014 Sep 27;15(1):820. doi: 10.1186/1471-2164-15-820.

DOI:10.1186/1471-2164-15-820

PMID:25261999

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4196006/

Abstract

BACKGROUND

Wing discs of B. mori are transformed to pupal wings during the larva-to-pupa metamorphosis with dramatic morphological and structural changes. To understand these changes at a transcriptional level, RNA-seq of the wing discs from 6-day-old fifth instar larvae (L5D6), prepupae (PP) and pupae (P0) was performed.

RESULTS

In total, 12,254 transcripts were obtained from the wing disc, out of which 5,287 were identified to be differentially expressed from L5D6 to PP and from PP to P0. The results of comprehensive analysis of RNA-seq data showed that during larvae-to-pupae metamorphosis, many genes of 20E signaling pathway were up-regulated and those of JH signaling pathway were down-regulated. Seventeen transcription factors were significantly up-regulated. Cuticle protein genes (especially wing cuticle protein genes), were most abundant and significantly up-regulated at P0 stage. Genes responsible for the degradation and de novo synthesis of chitin were significantly up-regulated. There were A and B two types of chitin synthases in B. mori, whereas only chitin synthase A was up-regulated. Both trehalose and D-fructose, which are precursors of chitin synthesis, were detected in the hemolymph of L5D6, PP and P0, suggesting de novo synthesis of chitin. However, most of the genes that are related to early wing disc differentiation were down-regulated.

CONCLUSIONS

Extensive transcriptome and DGE profiling data of wing disc during metamorphosis of silkworm have been generated, which provided comprehensive gene expression information at the transcriptional level. These results implied that during the larva-to-pupa metamorphosis, pupal wing development and transition might be mainly controlled by 20E signaling in B. mori. The 17 up-regulated transcription factors might be involved in wing development. Chitin required for pupal wing development might be generated from both degradation of componential chitin and de novo synthesis. Chitin synthase A might be responsible for the chitin synthesis in the pupal wing, while both trehalose and D-fructose might contribute to the de novo synthesis of chitin during the formation of pupal wing.

摘要

背景

家蚕的翅芽在幼虫到蛹的变态过程中转变为蛹翅，伴随着显著的形态和结构变化。为了在转录水平上理解这些变化，对6日龄五龄幼虫（L5D6）、预蛹（PP）和蛹（P0）的翅芽进行了RNA测序。

结果

总共从翅芽中获得了12254个转录本，其中5287个被鉴定为在从L5D6到PP以及从PP到P0的过程中差异表达。RNA测序数据的综合分析结果表明，在幼虫到蛹的变态过程中，20E信号通路的许多基因上调，而JH信号通路的基因下调。17个转录因子显著上调。表皮蛋白基因（尤其是翅表皮蛋白基因）最为丰富，且在P0阶段显著上调。负责几丁质降解和从头合成的基因显著上调。家蚕中有A和B两种几丁质合酶，而只有几丁质合酶A上调。几丁质合成的前体海藻糖和D-果糖在L5D6、PP和P0的血淋巴中均被检测到，表明几丁质的从头合成。然而，大多数与早期翅芽分化相关的基因下调。

结论

已生成家蚕变态过程中翅芽广泛的转录组和差异基因表达谱数据，这些数据在转录水平上提供了全面的基因表达信息。这些结果表明，在幼虫到蛹的变态过程中，家蚕蛹翅的发育和转变可能主要受20E信号控制。上调的17个转录因子可能参与翅的发育。蛹翅发育所需的几丁质可能来自组成型几丁质的降解和从头合成。几丁质合酶A可能负责蛹翅中的几丁质合成，而海藻糖和D-果糖可能在蛹翅形成过程中促进几丁质的从头合成。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/92d5/4196006/df20f5ad39e0/12864_2014_6525_Fig1_HTML.jpg

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家蚕变态期翅芽发育特征的转录组分析

Transcriptomic analysis of developmental features of Bombyx mori wing disc during metamorphosis.

作者信息

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSIONS

背景

结果

结论

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