Global Expressions Landscape of NAC Transcription Factor Family and Their Responses to Abiotic Stresses in Citrullus lanatus View Full Text


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Article Info

DATE

2016-08-05

AUTHORS

Xiaolong Lv, Shanrong Lan, Kateta Malangisha Guy, Jinghua Yang, Mingfang Zhang, Zhongyuan Hu

ABSTRACT

Watermelon (Citrullus lanatus) is one xerophyte that has relative higher tolerance to drought and salt stresses as well as more sensitivity to cold stress, compared with most model plants. These characteristics facilitate it a potential model crop for researches on salt, drought or cold tolerance. In this study, a genome-wide comprehensive analysis of the ClNAC transcription factor (TF) family was carried out for the first time, to investigate their transcriptional profiles and potential functions in response to these abiotic stresses. The expression profiling analysis reveals that several NAC TFs are highly responsive to abiotic stresses and development, for instance, subfamily IV NACs may play roles in maintaining water status under drought or salt conditions, as well as water and metabolites conduction and translocation toward fruit. In contrast, rapid and negative responses of most of the ClNACs to low-temperature adversity may be related to the sensitivity to cold stress. Crosstalks among these abiotic stresses and hormone (abscisic acid and jasmonic acid) pathways were also discussed based on the expression of ClNAC genes. Our results will provide useful insights for the functional mining of NAC family in watermelon, as well as into the mechanisms underlying abiotic tolerance in other cash crops. More... »

PAGES

30574

References to SciGraph publications

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  • 2010-07-15. Comprehensive Analysis of NAC Domain Transcription Factor Gene Family in Populus trichocarpa in BMC PLANT BIOLOGY
  • 2002-09. Molecular characterization of AtNAM: a member of theArabidopsis NAC domain superfamily in PLANT MOLECULAR BIOLOGY
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    36 schema:description Watermelon (Citrullus lanatus) is one xerophyte that has relative higher tolerance to drought and salt stresses as well as more sensitivity to cold stress, compared with most model plants. These characteristics facilitate it a potential model crop for researches on salt, drought or cold tolerance. In this study, a genome-wide comprehensive analysis of the ClNAC transcription factor (TF) family was carried out for the first time, to investigate their transcriptional profiles and potential functions in response to these abiotic stresses. The expression profiling analysis reveals that several NAC TFs are highly responsive to abiotic stresses and development, for instance, subfamily IV NACs may play roles in maintaining water status under drought or salt conditions, as well as water and metabolites conduction and translocation toward fruit. In contrast, rapid and negative responses of most of the ClNACs to low-temperature adversity may be related to the sensitivity to cold stress. Crosstalks among these abiotic stresses and hormone (abscisic acid and jasmonic acid) pathways were also discussed based on the expression of ClNAC genes. Our results will provide useful insights for the functional mining of NAC family in watermelon, as well as into the mechanisms underlying abiotic tolerance in other cash crops.
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    44 ClNAC genes
    45 ClNAC transcription factor (TF) family
    46 ClNACs
    47 Global Expressions Landscape
    48 NAC TFs
    49 NAC family
    50 NAC transcription factor family
    51 NACs
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    53 abiotic stresses
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    55 adversity
    56 analysis
    57 cash crops
    58 characteristics
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    62 conditions
    63 conduction
    64 contrast
    65 crops
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    67 development
    68 drought
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    71 factor family
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    73 first time
    74 fruit
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    94 potential function
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    98 research
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    102 salt
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