Comparative transcriptomics of limb regeneration: Identification of conserved expression changes among three species of Ambystoma

Varun B. Dwaraka; Jeramiah J. Smith; M. Ryan Woodcock; S. Randal Voss

doi:10.1016/j.ygeno.2018.07.017

Comparative transcriptomics of limb regeneration: Identification of conserved expression changes among three species of Ambystoma

Varun B. Dwaraka, Jeramiah J. Smith, M. Ryan Woodcock, S. Randal Voss

Research output: Contribution to journal › Article › peer-review

16 Scopus citations

Abstract

Transcriptome studies are revealing the complex gene expression basis of limb regeneration in the primary salamander model – Ambystoma mexicanum (axolotl). To better understand this complexity, there is need to extend analyses to additional salamander species. Using microarray and RNA-Seq, we performed a comparative transcriptomic study using A. mexicanum and two other ambystomatid salamanders: A. andersoni, and A. maculatum. Salamanders were administered forelimb amputations and RNA was isolated and analyzed to identify 405 non-redundant genes that were commonly, differentially expressed 24 h post amputation. Many of the upregulated genes are predicted to function in wound healing and developmental processes, while many of the downregulated genes are typically expressed in muscle. The conserved transcriptional changes identified in this study provide a high-confidence dataset for identifying factors that simultaneous orchestrate wound healing and regeneration processes in response to injury, and more generally for identifying genes that are essential for salamander limb regeneration.

Original language	English
Pages (from-to)	1216-1225
Number of pages	10
Journal	Genomics
Volume	111
Issue number	6
DOIs	https://doi.org/10.1016/j.ygeno.2018.07.017
State	Published - Dec 2019

Bibliographical note

Funding Information:
This research was funded by the National Institutes of Health and Army Research Office through their support of the Salamander Genome Project (R24OD010435, W911NF1010304) and the Ambystoma Genetic Stock Center (P40OD019794, W911NF1410165). The authors have no conflicts to disclose.

Funding Information:
This research was funded by the National Institutes of Health and Army Research Office through their support of the Salamander Genome Project ( R24OD010435 , W911NF1010304 ) and the Ambystoma Genetic Stock Center ( P40OD019794 , W911NF1410165 ). The authors have no conflicts to disclose.

Publisher Copyright:
© 2018 Elsevier Inc.

Keywords

Ambystoma
Limb regeneration
Mexican axolotl
Transcriptomics

ASJC Scopus subject areas

Genetics

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10.1016/j.ygeno.2018.07.017

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title = "Comparative transcriptomics of limb regeneration: Identification of conserved expression changes among three species of Ambystoma",

abstract = "Transcriptome studies are revealing the complex gene expression basis of limb regeneration in the primary salamander model – Ambystoma mexicanum (axolotl). To better understand this complexity, there is need to extend analyses to additional salamander species. Using microarray and RNA-Seq, we performed a comparative transcriptomic study using A. mexicanum and two other ambystomatid salamanders: A. andersoni, and A. maculatum. Salamanders were administered forelimb amputations and RNA was isolated and analyzed to identify 405 non-redundant genes that were commonly, differentially expressed 24 h post amputation. Many of the upregulated genes are predicted to function in wound healing and developmental processes, while many of the downregulated genes are typically expressed in muscle. The conserved transcriptional changes identified in this study provide a high-confidence dataset for identifying factors that simultaneous orchestrate wound healing and regeneration processes in response to injury, and more generally for identifying genes that are essential for salamander limb regeneration.",

keywords = "Ambystoma, Limb regeneration, Mexican axolotl, Transcriptomics",

author = "Dwaraka, {Varun B.} and Smith, {Jeramiah J.} and Woodcock, {M. Ryan} and Voss, {S. Randal}",

note = "Funding Information: This research was funded by the National Institutes of Health and Army Research Office through their support of the Salamander Genome Project (R24OD010435, W911NF1010304) and the Ambystoma Genetic Stock Center (P40OD019794, W911NF1410165). The authors have no conflicts to disclose. Funding Information: This research was funded by the National Institutes of Health and Army Research Office through their support of the Salamander Genome Project ( R24OD010435 , W911NF1010304 ) and the Ambystoma Genetic Stock Center ( P40OD019794 , W911NF1410165 ). The authors have no conflicts to disclose. Publisher Copyright: {\textcopyright} 2018 Elsevier Inc.",

year = "2019",

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doi = "10.1016/j.ygeno.2018.07.017",

language = "English",

volume = "111",

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N1 - Funding Information: This research was funded by the National Institutes of Health and Army Research Office through their support of the Salamander Genome Project (R24OD010435, W911NF1010304) and the Ambystoma Genetic Stock Center (P40OD019794, W911NF1410165). The authors have no conflicts to disclose. Funding Information: This research was funded by the National Institutes of Health and Army Research Office through their support of the Salamander Genome Project ( R24OD010435 , W911NF1010304 ) and the Ambystoma Genetic Stock Center ( P40OD019794 , W911NF1410165 ). The authors have no conflicts to disclose. Publisher Copyright: © 2018 Elsevier Inc.

PY - 2019/12

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N2 - Transcriptome studies are revealing the complex gene expression basis of limb regeneration in the primary salamander model – Ambystoma mexicanum (axolotl). To better understand this complexity, there is need to extend analyses to additional salamander species. Using microarray and RNA-Seq, we performed a comparative transcriptomic study using A. mexicanum and two other ambystomatid salamanders: A. andersoni, and A. maculatum. Salamanders were administered forelimb amputations and RNA was isolated and analyzed to identify 405 non-redundant genes that were commonly, differentially expressed 24 h post amputation. Many of the upregulated genes are predicted to function in wound healing and developmental processes, while many of the downregulated genes are typically expressed in muscle. The conserved transcriptional changes identified in this study provide a high-confidence dataset for identifying factors that simultaneous orchestrate wound healing and regeneration processes in response to injury, and more generally for identifying genes that are essential for salamander limb regeneration.

AB - Transcriptome studies are revealing the complex gene expression basis of limb regeneration in the primary salamander model – Ambystoma mexicanum (axolotl). To better understand this complexity, there is need to extend analyses to additional salamander species. Using microarray and RNA-Seq, we performed a comparative transcriptomic study using A. mexicanum and two other ambystomatid salamanders: A. andersoni, and A. maculatum. Salamanders were administered forelimb amputations and RNA was isolated and analyzed to identify 405 non-redundant genes that were commonly, differentially expressed 24 h post amputation. Many of the upregulated genes are predicted to function in wound healing and developmental processes, while many of the downregulated genes are typically expressed in muscle. The conserved transcriptional changes identified in this study provide a high-confidence dataset for identifying factors that simultaneous orchestrate wound healing and regeneration processes in response to injury, and more generally for identifying genes that are essential for salamander limb regeneration.

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Comparative transcriptomics of limb regeneration: Identification of conserved expression changes among three species of Ambystoma

Abstract

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Keywords

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