Proteome characterization of cassava (<it>Manihot esculenta </it>Crantz) somatic embryos, plantlets and tuberous roots

Proteome characterization of cassava (<it>Manihot esculenta </it>Crantz) somatic embryos, plantlets and tuberous roots

<p>Abstract</p> <p>Background</p> <p>Proteomics is increasingly becoming an important tool for the study of many different aspects of plant functions, such as investigating the molecular processes underlying in plant physiology, development, differentiation and their in...

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Main Authors: Rehman Samrina, Ou Wenjun, Ye Jianqiu, Zhang Zhenwen, Zeng Kang, Zhu Wenli, Li Kaimian, Heuer Bruria, Chen Songbi
Format: Article
Language:English
Published: BMC 2010-02-01
Series:Proteome Science
Online Access:http://www.proteomesci.com/content/8/1/10
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spelling doaj-2fc1c06b510f48cb9df3b5c7f0ac0e9d2020-11-25T00:33:43ZengBMCProteome Science1477-59562010-02-01811010.1186/1477-5956-8-10Proteome characterization of cassava (<it>Manihot esculenta </it>Crantz) somatic embryos, plantlets and tuberous rootsRehman SamrinaOu WenjunYe JianqiuZhang ZhenwenZeng KangZhu WenliLi KaimianHeuer BruriaChen Songbi<p>Abstract</p> <p>Background</p> <p>Proteomics is increasingly becoming an important tool for the study of many different aspects of plant functions, such as investigating the molecular processes underlying in plant physiology, development, differentiation and their interaction with the environments. To investigate the cassava (<it>Manihot esculenta </it>Crantz) proteome, we extracted proteins from somatic embryos, plantlets and tuberous roots of cultivar SC8 and separated them by sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE).</p> <p>Results</p> <p>Analysis by liquid chromatography-electrospray ionisation-tandem mass spectrometry (LC-ESI-MS/MS) yielded a total of 383 proteins including isoforms, classified into 14 functional groups. The majority of these were carbohydrate and energy metabolism associated proteins (27.2%), followed by those involved in protein biosynthesis (14.4%). Subsequent analysis has revealed that 54, 59, 74 and 102 identified proteins are unique to the somatic embryos, shoots, adventitious roots and tuberous roots, respectively. Some of these proteins may serve as signatures for the physiological and developmental stages of somatic embryos, shoots, adventitious roots and tuberous root. Western blotting results have shown high expression levels of Rubisco in shoots and its absence in the somatic embryos. In addition, high-level expression of α-tubulin was found in tuberous roots, and a low-level one in somatic embryos. This extensive study effectively provides a huge data set of dynamic protein-related information to better understand the molecular basis underlying cassava growth, development, and physiological functions.</p> <p>Conclusion</p> <p>This work paves the way towards a comprehensive, system-wide analysis of the cassava. Integration with transcriptomics, metabolomics and other large scale "-omics" data with systems biology approaches can open new avenues towards engineering cassava to enhance yields, improve nutritional value and overcome the problem of post-harvest physiological deterioration.</p> http://www.proteomesci.com/content/8/1/10
collection DOAJ
language English
format Article
sources DOAJ
author Rehman Samrina
Ou Wenjun
Ye Jianqiu
Zhang Zhenwen
Zeng Kang
Zhu Wenli
Li Kaimian
Heuer Bruria
Chen Songbi
spellingShingle Rehman Samrina
Ou Wenjun
Ye Jianqiu
Zhang Zhenwen
Zeng Kang
Zhu Wenli
Li Kaimian
Heuer Bruria
Chen Songbi
Proteome characterization of cassava (<it>Manihot esculenta </it>Crantz) somatic embryos, plantlets and tuberous roots
Proteome Science
author_facet Rehman Samrina
Ou Wenjun
Ye Jianqiu
Zhang Zhenwen
Zeng Kang
Zhu Wenli
Li Kaimian
Heuer Bruria
Chen Songbi
author_sort Rehman Samrina
title Proteome characterization of cassava (<it>Manihot esculenta </it>Crantz) somatic embryos, plantlets and tuberous roots
title_short Proteome characterization of cassava (<it>Manihot esculenta </it>Crantz) somatic embryos, plantlets and tuberous roots
title_full Proteome characterization of cassava (<it>Manihot esculenta </it>Crantz) somatic embryos, plantlets and tuberous roots
title_fullStr Proteome characterization of cassava (<it>Manihot esculenta </it>Crantz) somatic embryos, plantlets and tuberous roots
title_full_unstemmed Proteome characterization of cassava (<it>Manihot esculenta </it>Crantz) somatic embryos, plantlets and tuberous roots
title_sort proteome characterization of cassava (<it>manihot esculenta </it>crantz) somatic embryos, plantlets and tuberous roots
publisher BMC
series Proteome Science
issn 1477-5956
publishDate 2010-02-01
description <p>Abstract</p> <p>Background</p> <p>Proteomics is increasingly becoming an important tool for the study of many different aspects of plant functions, such as investigating the molecular processes underlying in plant physiology, development, differentiation and their interaction with the environments. To investigate the cassava (<it>Manihot esculenta </it>Crantz) proteome, we extracted proteins from somatic embryos, plantlets and tuberous roots of cultivar SC8 and separated them by sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE).</p> <p>Results</p> <p>Analysis by liquid chromatography-electrospray ionisation-tandem mass spectrometry (LC-ESI-MS/MS) yielded a total of 383 proteins including isoforms, classified into 14 functional groups. The majority of these were carbohydrate and energy metabolism associated proteins (27.2%), followed by those involved in protein biosynthesis (14.4%). Subsequent analysis has revealed that 54, 59, 74 and 102 identified proteins are unique to the somatic embryos, shoots, adventitious roots and tuberous roots, respectively. Some of these proteins may serve as signatures for the physiological and developmental stages of somatic embryos, shoots, adventitious roots and tuberous root. Western blotting results have shown high expression levels of Rubisco in shoots and its absence in the somatic embryos. In addition, high-level expression of α-tubulin was found in tuberous roots, and a low-level one in somatic embryos. This extensive study effectively provides a huge data set of dynamic protein-related information to better understand the molecular basis underlying cassava growth, development, and physiological functions.</p> <p>Conclusion</p> <p>This work paves the way towards a comprehensive, system-wide analysis of the cassava. Integration with transcriptomics, metabolomics and other large scale "-omics" data with systems biology approaches can open new avenues towards engineering cassava to enhance yields, improve nutritional value and overcome the problem of post-harvest physiological deterioration.</p>
url http://www.proteomesci.com/content/8/1/10
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