Expression of Specific Alleles of Zinc-Finger Transcription Factors, HvSAP8 and HvSAP16, and Corresponding SNP Markers, Are Associated with Drought Tolerance in Barley Populations
Two genes, HvSAP8 and HvSAP16, encoding Zinc-finger proteins, were identified earlier as active in barley plants. Based on bioinformatics and sequencing analysis, six SNPs were found in the promoter regions of HvSAP8 and one in HvSAP16, among parents of two barley segregating populations, Granal × B...
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| Published in | International journal of molecular sciences Vol. 22; no. 22; p. 12156 |
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| Main Authors | , , , , , , , , , , , , , |
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| Abstract | Two genes, HvSAP8 and HvSAP16, encoding Zinc-finger proteins, were identified earlier as active in barley plants. Based on bioinformatics and sequencing analysis, six SNPs were found in the promoter regions of HvSAP8 and one in HvSAP16, among parents of two barley segregating populations, Granal × Baisheshek and Natali × Auksiniai-2. ASQ and Amplifluor markers were developed for HvSAP8 and HvSAP16, one SNP in each gene, and in each of two populations, showing simple Mendelian segregation. Plants of F6 selected breeding lines and parents were evaluated in a soil-based drought screen, revealing differential expression of HvSAP8 and HvSAP16 corresponding with the stress. After almost doubling expression during the early stages of stress, HvSAP8 returned to pre-stress level or was strongly down-regulated in plants with Granal or Baisheshek genotypes, respectively. For HvSAP16 under drought conditions, a high expression level was followed by either a return to original levels or strong down-regulation in plants with Natali or Auksiniai-2 genotypes, respectively. Grain yield in the same breeding lines and parents grown under moderate drought was strongly associated with their HvSAP8 and HvSAP16 genotypes. Additionally, Granal and Natali genotypes with specific alleles at HvSAP8 and HvSAP16 were associated with improved performance under drought via higher 1000 grain weight and more shoots per plant, respectively. |
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| AbstractList | Two genes, HvSAP8 and HvSAP16, encoding Zinc-finger proteins, were identified earlier as active in barley plants. Based on bioinformatics and sequencing analysis, six SNPs were found in the promoter regions of HvSAP8 and one in HvSAP16, among parents of two barley segregating populations, Granal × Baisheshek and Natali × Auksiniai-2. ASQ and Amplifluor markers were developed for HvSAP8 and HvSAP16, one SNP in each gene, and in each of two populations, showing simple Mendelian segregation. Plants of F6 selected breeding lines and parents were evaluated in a soil-based drought screen, revealing differential expression of HvSAP8 and HvSAP16 corresponding with the stress. After almost doubling expression during the early stages of stress, HvSAP8 returned to pre-stress level or was strongly down-regulated in plants with Granal or Baisheshek genotypes, respectively. For HvSAP16 under drought conditions, a high expression level was followed by either a return to original levels or strong down-regulation in plants with Natali or Auksiniai-2 genotypes, respectively. Grain yield in the same breeding lines and parents grown under moderate drought was strongly associated with their HvSAP8 and HvSAP16 genotypes. Additionally, Granal and Natali genotypes with specific alleles at HvSAP8 and HvSAP16 were associated with improved performance under drought via higher 1000 grain weight and more shoots per plant, respectively.Two genes, HvSAP8 and HvSAP16, encoding Zinc-finger proteins, were identified earlier as active in barley plants. Based on bioinformatics and sequencing analysis, six SNPs were found in the promoter regions of HvSAP8 and one in HvSAP16, among parents of two barley segregating populations, Granal × Baisheshek and Natali × Auksiniai-2. ASQ and Amplifluor markers were developed for HvSAP8 and HvSAP16, one SNP in each gene, and in each of two populations, showing simple Mendelian segregation. Plants of F6 selected breeding lines and parents were evaluated in a soil-based drought screen, revealing differential expression of HvSAP8 and HvSAP16 corresponding with the stress. After almost doubling expression during the early stages of stress, HvSAP8 returned to pre-stress level or was strongly down-regulated in plants with Granal or Baisheshek genotypes, respectively. For HvSAP16 under drought conditions, a high expression level was followed by either a return to original levels or strong down-regulation in plants with Natali or Auksiniai-2 genotypes, respectively. Grain yield in the same breeding lines and parents grown under moderate drought was strongly associated with their HvSAP8 and HvSAP16 genotypes. Additionally, Granal and Natali genotypes with specific alleles at HvSAP8 and HvSAP16 were associated with improved performance under drought via higher 1000 grain weight and more shoots per plant, respectively. Two genes, HvSAP8 and HvSAP16 , encoding Zinc-finger proteins, were identified earlier as active in barley plants. Based on bioinformatics and sequencing analysis, six SNPs were found in the promoter regions of HvSAP8 and one in HvSAP16 , among parents of two barley segregating populations, Granal × Baisheshek and Natali × Auksiniai-2. ASQ and Amplifluor markers were developed for HvSAP8 and HvSAP16 , one SNP in each gene, and in each of two populations, showing simple Mendelian segregation. Plants of F 6 selected breeding lines and parents were evaluated in a soil-based drought screen, revealing differential expression of HvSAP8 and HvSAP16 corresponding with the stress. After almost doubling expression during the early stages of stress, HvSAP8 returned to pre-stress level or was strongly down-regulated in plants with Granal or Baisheshek genotypes, respectively. For HvSAP16 under drought conditions, a high expression level was followed by either a return to original levels or strong down-regulation in plants with Natali or Auksiniai-2 genotypes, respectively. Grain yield in the same breeding lines and parents grown under moderate drought was strongly associated with their HvSAP8 and HvSAP16 genotypes. Additionally, Granal and Natali genotypes with specific alleles at HvSAP8 and HvSAP16 were associated with improved performance under drought via higher 1000 grain weight and more shoots per plant, respectively. Two genes, HvSAP8 and HvSAP16, encoding Zinc-finger proteins, were identified earlier as active in barley plants. Based on bioinformatics and sequencing analysis, six SNPs were found in the promoter regions of HvSAP8 and one in HvSAP16, among parents of two barley segregating populations, Granal × Baisheshek and Natali × Auksiniai-2. ASQ and Amplifluor markers were developed for HvSAP8 and HvSAP16, one SNP in each gene, and in each of two populations, showing simple Mendelian segregation. Plants of F6 selected breeding lines and parents were evaluated in a soil-based drought screen, revealing differential expression of HvSAP8 and HvSAP16 corresponding with the stress. After almost doubling expression during the early stages of stress, HvSAP8 returned to pre-stress level or was strongly down-regulated in plants with Granal or Baisheshek genotypes, respectively. For HvSAP16 under drought conditions, a high expression level was followed by either a return to original levels or strong down-regulation in plants with Natali or Auksiniai-2 genotypes, respectively. Grain yield in the same breeding lines and parents grown under moderate drought was strongly associated with their HvSAP8 and HvSAP16 genotypes. Additionally, Granal and Natali genotypes with specific alleles at HvSAP8 and HvSAP16 were associated with improved performance under drought via higher 1000 grain weight and more shoots per plant, respectively. Two genes, and , encoding Zinc-finger proteins, were identified earlier as active in barley plants. Based on bioinformatics and sequencing analysis, six SNPs were found in the promoter regions of and one in , among parents of two barley segregating populations, Granal × Baisheshek and Natali × Auksiniai-2. ASQ and Amplifluor markers were developed for and , one SNP in each gene, and in each of two populations, showing simple Mendelian segregation. Plants of F selected breeding lines and parents were evaluated in a soil-based drought screen, revealing differential expression of and corresponding with the stress. After almost doubling expression during the early stages of stress, returned to pre-stress level or was strongly down-regulated in plants with Granal or Baisheshek genotypes, respectively. For under drought conditions, a high expression level was followed by either a return to original levels or strong down-regulation in plants with Natali or Auksiniai-2 genotypes, respectively. Grain yield in the same breeding lines and parents grown under moderate drought was strongly associated with their and genotypes. Additionally, Granal and Natali genotypes with specific alleles at and were associated with improved performance under drought via higher 1000 grain weight and more shoots per plant, respectively. |
| Author | Khassanova, Gulmira Amantayev, Bekzak Sereda, Sergey Gupta, Sunita Jenkins, Colin L. D. Anderson, Peter Gupta, Narendra K. Shavrukov, Yuri Langridge, Peter Jatayev, Satyvaldy Baidyussen, Akmaral Sereda, Grigory Soole, Kathleen L. Schramm, Carly |
| AuthorAffiliation | 3 Department of Plant Physiology, SKN Agriculture University, Jobner 303 329, India; nkgupta69@yahoo.co.in (N.K.G.); sunita.pphy.rari@sknau.ac.in (S.G.) 6 School of Agriculture, Food and Wine, University of Adelaide, Urrbrae, SA 5005, Australia 4 College of Science and Engineering, Biological Sciences, Flinders University, Adelaide, SA 5042, Australia; carly.schramm@flinders.edu.au (C.S.); peter.anderson@flinders.edu.au (P.A.); colin.jenkins@flinders.edu.au (C.L.D.J.); kathleen.soole@flinders.edu.au (K.L.S.) 5 Wheat Initiative, Julius-Kühn-Institute, 14195 Berlin, Germany; peter.langridge@adelaide.edu.au 2 A.F. Khristenko Karaganda Agricultural Experimental Station, Karaganda Region 100435, Kazakhstan; sereda_t@bk.ru (G.S.); sergey.sereda.00@bk.ru (S.S.) 1 Faculty of Agronomy, S. Seifullin Kazakh AgroTechnical University, Nur-Sultan 010000, Kazakhstan; bai_akmaral@mail.ru (A.B.); satidjo@gmail.com (S.J.); khasanova-gulmira@mail.ru (G.K.); bekzat-abu@mail.ru (B.A.) |
| AuthorAffiliation_xml | – name: 3 Department of Plant Physiology, SKN Agriculture University, Jobner 303 329, India; nkgupta69@yahoo.co.in (N.K.G.); sunita.pphy.rari@sknau.ac.in (S.G.) – name: 4 College of Science and Engineering, Biological Sciences, Flinders University, Adelaide, SA 5042, Australia; carly.schramm@flinders.edu.au (C.S.); peter.anderson@flinders.edu.au (P.A.); colin.jenkins@flinders.edu.au (C.L.D.J.); kathleen.soole@flinders.edu.au (K.L.S.) – name: 6 School of Agriculture, Food and Wine, University of Adelaide, Urrbrae, SA 5005, Australia – name: 2 A.F. Khristenko Karaganda Agricultural Experimental Station, Karaganda Region 100435, Kazakhstan; sereda_t@bk.ru (G.S.); sergey.sereda.00@bk.ru (S.S.) – name: 1 Faculty of Agronomy, S. Seifullin Kazakh AgroTechnical University, Nur-Sultan 010000, Kazakhstan; bai_akmaral@mail.ru (A.B.); satidjo@gmail.com (S.J.); khasanova-gulmira@mail.ru (G.K.); bekzat-abu@mail.ru (B.A.) – name: 5 Wheat Initiative, Julius-Kühn-Institute, 14195 Berlin, Germany; peter.langridge@adelaide.edu.au |
| Author_xml | – sequence: 1 givenname: Akmaral surname: Baidyussen fullname: Baidyussen, Akmaral – sequence: 2 givenname: Satyvaldy surname: Jatayev fullname: Jatayev, Satyvaldy – sequence: 3 givenname: Gulmira surname: Khassanova fullname: Khassanova, Gulmira – sequence: 4 givenname: Bekzak surname: Amantayev fullname: Amantayev, Bekzak – sequence: 5 givenname: Grigory surname: Sereda fullname: Sereda, Grigory – sequence: 6 givenname: Sergey surname: Sereda fullname: Sereda, Sergey – sequence: 7 givenname: Narendra K. surname: Gupta fullname: Gupta, Narendra K. – sequence: 8 givenname: Sunita surname: Gupta fullname: Gupta, Sunita – sequence: 9 givenname: Carly surname: Schramm fullname: Schramm, Carly – sequence: 10 givenname: Peter surname: Anderson fullname: Anderson, Peter – sequence: 11 givenname: Colin L. D. surname: Jenkins fullname: Jenkins, Colin L. D. – sequence: 12 givenname: Kathleen L. orcidid: 0000-0002-8837-3404 surname: Soole fullname: Soole, Kathleen L. – sequence: 13 givenname: Peter orcidid: 0000-0001-9494-400X surname: Langridge fullname: Langridge, Peter – sequence: 14 givenname: Yuri orcidid: 0000-0002-2941-0340 surname: Shavrukov fullname: Shavrukov, Yuri |
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| Keywords | zinc-finger transcription factors stress-associated genes SNP plant genotyping drought thousand grain weight ASQ and Amplifluor markers grain yield and yield components barley shoots number per plant gene expression |
| Language | English |
| License | https://creativecommons.org/licenses/by/4.0 Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/). |
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| Snippet | Two genes, HvSAP8 and HvSAP16, encoding Zinc-finger proteins, were identified earlier as active in barley plants. Based on bioinformatics and sequencing... Two genes, and , encoding Zinc-finger proteins, were identified earlier as active in barley plants. Based on bioinformatics and sequencing analysis, six SNPs... Two genes, HvSAP8 and HvSAP16 , encoding Zinc-finger proteins, were identified earlier as active in barley plants. Based on bioinformatics and sequencing... |
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| SubjectTerms | Alleles Barley Dehydration Drought Flowers & plants Gene expression Gene Expression Regulation, Plant Genotype & phenotype Hordeum - genetics Hordeum - metabolism Plant Proteins - genetics Plant Proteins - metabolism Polyethylene glycol Polymorphism, Single Nucleotide Proteins Salinity Stress, Physiological - genetics Tobacco Transcription factors Transcription Factors - genetics Transcription Factors - metabolism Zinc Fingers |
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| Title | Expression of Specific Alleles of Zinc-Finger Transcription Factors, HvSAP8 and HvSAP16, and Corresponding SNP Markers, Are Associated with Drought Tolerance in Barley Populations |
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