Expression patterns of the <i>ZmASR</i> family during simulated drought stress in maize

Zhang, Lili; Yi, Xiaoping; Guo, Jingyuan; Xia, Qiyu; He, Pingping; Huo, Shanshan; Qu, Junle; Cao, Yang; Tan, Yanhua; Guo, Anping

doi:10.1002/agj2.20545

Cited by 4 publications

(2 citation statements)

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“…They concluded that ridge film mulching and furrow straw mulching are effective methods to alleviate drought, water shortage, and soil erosion. Zhang, Yi et al (2020) studied the Abscisic acidstress-ripening induced protein (ZmASR) in maize on the plant response to drought stress treatments using qRT-PCR.…”

Section: Research Areas Discussedmentioning

confidence: 99%

Agriculture, biology, and environment: Twenty first century challenges and opportunities

et al. 2021

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The 6th International Conference on Agricultural and Biological Sciences (ABS 2020), was planned to be held in the People's Republic of China. Due to the COVID-19 pandemic, ABS 2020, "Agricultural and Biological Sciences: Plant, Soil, Animal, and Environment", was the first online conference in Agricultural and Biological Sciences history. Each paper addressed a slightly different topic and provided identifiable challenges and research key questions in agriculture, agronomy, food production and security, and environmental hazards. The role of Agricultural and Biological Sciences of China is the generation of research knowledge that influence everyday activities. There were 41 manuscripts submitted, of which 25 were accepted for publication. The research domains varied and included the role of specific plant on soil C-cycling, haploid induction, and natural doubling of Zea mays L.; plant species and soil rhizosphere microflora; forest tree biomass succession and dynamics relevant to C-sequestration; making sandy land agriculture friendly; plantation age on C, N, and P stoichiometry; codon uses pattern of Gnetum luofuoense C.Y. Cheng using transcriptome data; suitability of plant landscape unit and natural parks; regeneration protocol of Jatropha curcas L., etc. The purpose of this special section is to generate an improved communication among international scientists that we hope will lead to enhanced food security.

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Section: Research Areas Discussedmentioning

confidence: 99%

Agriculture, biology, and environment: Twenty first century challenges and opportunities

et al. 2021

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“…B. Wang et al (2021) used the premise that 3phosphoglycerate dehydrogenase genes from rice (OsPGDH) may play essential roles in the adaptation of rice to various external environments and along with bioinformatics results to highlight the potential of OsPGDH1 to improve stress tolerance in rice. L. Zhang et al (2021) did not select a single candidate among the abscisic acid-stress-ripening induced (ZmASR) genes as a major player in the acquisition of stress tolerance in maize. In contrast, they suggested a synergic action of several ZmASR genes in abiotic stress responses.…”

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confidence: 99%

Translating genomic studies into agronomic applications: Where do we stand?

Ribeiro¹

2021

Agronomy Journal

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To the Editor, This Letter to the Editor aims to facilitate discussion of the strength and powerfulness of bioinformatics tools to pinpoint potential candidate genes for further genomics studies that would provide answers for real-life agronomic problems of crop species. I recently came across the paper by Jiang et al. (2021) in which the authors used a bioinformatics approach to characterize the Aux/IAA gene family in maize. Similar bioinformatics approaches have been also used by B. Wang et al. (2021) and by L. Zhang et al. (2021) in papers recently published by Agronomy Journal. Jiang et al. ( 2021) performed some classical bioinformatics analysis such as the construction of a phylogenetic tree, analysis of conserved domains, localization of the Aux/IAA genes on maize chromosomes, analysis of the proteins physico-chemical properties, analysis of regulatory promoter elements, and the prediction of subcellular localizations. Furthermore, the expression analysis of Aux/IAA genes was presented. Interestingly, the authors suggested that Aux/IAA gene evolution might have preceded the differentiation between monocotyledon and dicotyledon species. However, this claim would have been better supported if the authors used a greater number of mono-and dicotyledons in the construction of the evolutionary tree. The gene GRMZM2G115357 was pointed out as a major player in the acquisition of tolerance to osmotic stress in maize (Jiang et al., 2021). Although this is an important lead, the argument that this gene was highly expressed under high osmotic pressure conditions might not be sufficient enough to support this claim. B. Wang et al. (2021) used the premise that 3phosphoglycerate dehydrogenase genes from rice (OsPGDH) may play essential roles in the adaptation of rice to various external environments and along with bioinformatics results to highlight the potential of OsPGDH1 to improve stress tolerance in rice. L. Zhang et al. (2021) did not select a single candidate among the abscisic acid-stress-ripening induced (ZmASR) genes as a major player in the acquisition of stress tolerance in maize. In contrast, they suggested a synergic action of several ZmASR genes in abiotic stress responses. Nevertheless, the main question remains unanswered, how Abbreviations: GM, genetically modified; sHSP, small heat-shock protein.

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Isolation, Characterization and Genome-Wide Identification of Cys-2/His-2 Type Zinc Finger Nuclease, a Transcription Activator in Saccharum Complex Under Abiotic Stress Conditions

Harish Chandar,

Subramanian,

Surya Krishna

et al. 2024

Sugar Tech

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Expression patterns of the ZmASR family during simulated drought stress in maize

Cited by 4 publications

References 53 publications

Agriculture, biology, and environment: Twenty first century challenges and opportunities

Agriculture, biology, and environment: Twenty first century challenges and opportunities

Translating genomic studies into agronomic applications: Where do we stand?

Isolation, Characterization and Genome-Wide Identification of Cys-2/His-2 Type Zinc Finger Nuclease, a Transcription Activator in Saccharum Complex Under Abiotic Stress Conditions

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