Proteomic analysis of seedling roots of two maize inbred lines that differ significantly in the salt stress response

Proteomic analysis of seedling roots of two maize inbred lines that differ significantly in the salt stress response

10.1371/journal.pone.0116697

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Bibliographic Details
Main Authors: Cui D., Wu D., Liu J., Li D., Xu C., Li S., Li P., Zhang H., Liu X., Jiang C., Wang L., Chen T., Chen H., Zhao L.
Other Authors: CHEMICAL & BIOMOLECULAR ENGINEERING
Format: Article
Published: 2019
Subjects:
adenine nucleotide translocase
adenosylhomocysteinase
alpha 1,4 glucan protein synthase
aquaporin
cysteine proteinase
exhydrolase II isoform 1
formate dehydrogenase
fructokinase 2
fructose bisphosphate aldolase
heat shock protein 90
histone H4
lichenase 2 precursor
maize insect resistance 1
pathogenesis related protein 10
peroxidase 42 precursor
plasma membrane intrinsic protein 1
plasma membrane intrinsic protein 2
plasma membrane intrinsic protein[2-4]
potassium
protein 14 3 3
protein GST 4
ribosomal protein S8
seed maturation protein PM41
sodium chloride
sodium ion
sucrose synthase
unclassified drug
vegetable protein
water
xyloglucan endotransglycosylase
plant protein
Arabidopsis
Article
barley
comparative study
controlled study
cross tolerance
down regulation
gene control
genotype
genotype F35
genotype F63
inbred strain
maize
nonhuman
osmotic potential
phenotype
plant root
plant structures
protein expression
protein function
protein synthesis
proteomics
salinity
salt stress
seedling
shoot
signal transduction
water content
yeast
genetics
metabolism
physiological stress
salt tolerance
species difference
Zea mays
Genotype
Plant Proteins
Plant Roots
Salt-Tolerance
Species Specificity
Stress, Physiological
Online Access:https://scholarbank.nus.edu.sg/handle/10635/161747
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spelling sg-nus-scholar.10635-1617472024-03-26T08:57:21Z Proteomic analysis of seedling roots of two maize inbred lines that differ significantly in the salt stress response Cui D. Wu D. Liu J. Li D. Xu C. Li S. Li P. Zhang H. Liu X. Jiang C. Wang L. Chen T. Chen H. Zhao L. CHEMICAL & BIOMOLECULAR ENGINEERING adenine nucleotide translocase adenosylhomocysteinase alpha 1,4 glucan protein synthase aquaporin cysteine proteinase exhydrolase II isoform 1 formate dehydrogenase fructokinase 2 fructose bisphosphate aldolase heat shock protein 90 histone H4 lichenase 2 precursor maize insect resistance 1 pathogenesis related protein 10 peroxidase 42 precursor plasma membrane intrinsic protein 1 plasma membrane intrinsic protein 2 plasma membrane intrinsic protein[2-4] potassium protein 14 3 3 protein GST 4 ribosomal protein S8 seed maturation protein PM41 sodium chloride sodium ion sucrose synthase unclassified drug vegetable protein water xyloglucan endotransglycosylase plant protein Arabidopsis Article barley comparative study controlled study cross tolerance down regulation gene control genotype genotype F35 genotype F63 inbred strain maize nonhuman osmotic potential phenotype plant root plant structures protein expression protein function protein synthesis proteomics salinity salt stress seedling shoot signal transduction water content yeast genetics genotype maize metabolism physiological stress plant root salt tolerance species difference Zea mays Genotype Plant Proteins Plant Roots Salt-Tolerance Species Specificity Stress, Physiological Zea mays 10.1371/journal.pone.0116697 PLoS ONE 10 2 e0116697 2019-11-07T05:02:28Z 2019-11-07T05:02:28Z 2015 Article Cui D., Wu D., Liu J., Li D., Xu C., Li S., Li P., Zhang H., Liu X., Jiang C., Wang L., Chen T., Chen H., Zhao L. (2015). Proteomic analysis of seedling roots of two maize inbred lines that differ significantly in the salt stress response. PLoS ONE 10 (2) : e0116697. ScholarBank@NUS Repository. https://doi.org/10.1371/journal.pone.0116697 19326203 https://scholarbank.nus.edu.sg/handle/10635/161747 Attribution 4.0 International http://creativecommons.org/licenses/by/4.0/ Unpaywall 20191101
institution National University of Singapore
building NUS Library
continent Asia
country Singapore
Singapore
content_provider NUS Library
collection ScholarBank@NUS
topic adenine nucleotide translocase
adenosylhomocysteinase
alpha 1,4 glucan protein synthase
aquaporin
cysteine proteinase
exhydrolase II isoform 1
formate dehydrogenase
fructokinase 2
fructose bisphosphate aldolase
heat shock protein 90
histone H4
lichenase 2 precursor
maize insect resistance 1
pathogenesis related protein 10
peroxidase 42 precursor
plasma membrane intrinsic protein 1
plasma membrane intrinsic protein 2
plasma membrane intrinsic protein[2-4]
potassium
protein 14 3 3
protein GST 4
ribosomal protein S8
seed maturation protein PM41
sodium chloride
sodium ion
sucrose synthase
unclassified drug
vegetable protein
water
xyloglucan endotransglycosylase
plant protein
Arabidopsis
Article
barley
comparative study
controlled study
cross tolerance
down regulation
gene control
genotype
genotype F35
genotype F63
inbred strain
maize
nonhuman
osmotic potential
phenotype
plant root
plant structures
protein expression
protein function
protein synthesis
proteomics
salinity
salt stress
seedling
shoot
signal transduction
water content
yeast
genetics
genotype
maize
metabolism
physiological stress
plant root
salt tolerance
species difference
Zea mays
Genotype
Plant Proteins
Plant Roots
Salt-Tolerance
Species Specificity
Stress, Physiological
Zea mays
spellingShingle adenine nucleotide translocase
adenosylhomocysteinase
alpha 1,4 glucan protein synthase
aquaporin
cysteine proteinase
exhydrolase II isoform 1
formate dehydrogenase
fructokinase 2
fructose bisphosphate aldolase
heat shock protein 90
histone H4
lichenase 2 precursor
maize insect resistance 1
pathogenesis related protein 10
peroxidase 42 precursor
plasma membrane intrinsic protein 1
plasma membrane intrinsic protein 2
plasma membrane intrinsic protein[2-4]
potassium
protein 14 3 3
protein GST 4
ribosomal protein S8
seed maturation protein PM41
sodium chloride
sodium ion
sucrose synthase
unclassified drug
vegetable protein
water
xyloglucan endotransglycosylase
plant protein
Arabidopsis
Article
barley
comparative study
controlled study
cross tolerance
down regulation
gene control
genotype
genotype F35
genotype F63
inbred strain
maize
nonhuman
osmotic potential
phenotype
plant root
plant structures
protein expression
protein function
protein synthesis
proteomics
salinity
salt stress
seedling
shoot
signal transduction
water content
yeast
genetics
genotype
maize
metabolism
physiological stress
plant root
salt tolerance
species difference
Zea mays
Genotype
Plant Proteins
Plant Roots
Salt-Tolerance
Species Specificity
Stress, Physiological
Zea mays
Cui D.
Wu D.
Liu J.
Li D.
Xu C.
Li S.
Li P.
Zhang H.
Liu X.
Jiang C.
Wang L.
Chen T.
Chen H.
Zhao L.
Proteomic analysis of seedling roots of two maize inbred lines that differ significantly in the salt stress response
description 10.1371/journal.pone.0116697
author2 CHEMICAL & BIOMOLECULAR ENGINEERING
author_facet CHEMICAL & BIOMOLECULAR ENGINEERING
Cui D.
Wu D.
Liu J.
Li D.
Xu C.
Li S.
Li P.
Zhang H.
Liu X.
Jiang C.
Wang L.
Chen T.
Chen H.
Zhao L.
format Article
author Cui D.
Wu D.
Liu J.
Li D.
Xu C.
Li S.
Li P.
Zhang H.
Liu X.
Jiang C.
Wang L.
Chen T.
Chen H.
Zhao L.
author_sort Cui D.
title Proteomic analysis of seedling roots of two maize inbred lines that differ significantly in the salt stress response
title_short Proteomic analysis of seedling roots of two maize inbred lines that differ significantly in the salt stress response
title_full Proteomic analysis of seedling roots of two maize inbred lines that differ significantly in the salt stress response
title_fullStr Proteomic analysis of seedling roots of two maize inbred lines that differ significantly in the salt stress response
title_full_unstemmed Proteomic analysis of seedling roots of two maize inbred lines that differ significantly in the salt stress response
title_sort proteomic analysis of seedling roots of two maize inbred lines that differ significantly in the salt stress response
publishDate 2019
url https://scholarbank.nus.edu.sg/handle/10635/161747
_version_ 1795300777997107200

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