Identification of QTLS for NH4+ and NO3- use efficiency under water stress and non-stress conditions and expression analysis of glutamine synthetase and nitrate reductase in rice (Oryza Sativa L.)

R. Upadhyay
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Abstract

Nitrogen (N) is one of the most critical inputs and the current average nitrogen use efficiency (NUE) in the rice field is approximately 33%, poorest among cereals. Predominant form of N in aerobic soils is nitrate (NO3-) while ammonium (NH4+) exists in anaerobic soils. Development of cultivars with improved NH4+ or NO3- use efficiency by harnessing inherent significant variability for NUE can be an important approach. Considering these facts, the present study was established with one hundred twenty two and selected thirty two recombinant inbred lines (RILs) of two indica genotypes, Danteshwari × Dagad deshi under three nitrogen forms and three environments. The trend analysis of NH4+-N and NO3--N dynamics revealed that NH4+-N concentration persisted more under anaerobic condition and NO3--N concentration under aerobic conditions. Three way-ANOVA showed high level of significance for variance components (G, N, E) and their interactions effects (GXN, GXE, NXE, EXNXG) for yield and NUE and their component traits. Mean performance of genotypes depicted higher values for agronomically important traits i.e. yield and NUE under NH4+ as compared to NO3--N and N0. The phenotypic and genotypic data was statistically analyzed for QTLs identification for yield and NUE traits. A total of 58 QTLs conferring the corresponding five traits were detected under three N forms and two environments. We also investigated the different members of AMT (Ammonium transporters), NRT (Nitrate transporters), GS (Glutamine Synthetase) and GOGAT (Glutamate Synthase) genes, involved in NUE and analyzed the expression pattern of each gene using gene-specific primer in young rice seedlings. Collectively, OsGln1;1, OsGln1;2, OsGln1;3, OsGln2, OsGlt1 and OsGlt2 manifested different and reciprocal responses to nitrate and ammonium supply. The activity of enzymes NR, NiR, GS and GOGAT was significantly affected by NH4+and NO3- treatment. These results assist us to identify NH4+ and NO3- responsive cultivars which could be used for cultivation and/or used as parent’s in future breeding program to produce better nitrogen use efficiency varieties under water stress and non-stress conditions.
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水分胁迫与非胁迫条件下水稻NH4+和NO3-利用效率QTLS的鉴定及谷氨酰胺合成酶和硝酸还原酶的表达分析
氮(N)是最重要的投入之一,目前稻田的平均氮利用效率(NUE)约为33%,是谷物中最低的。好氧土壤以硝态氮(NO3-)为主,厌氧土壤以铵态氮(NH4+)为主。利用氮肥利用效率的内在显著变异,培育提高NH4+或NO3-利用效率的品种可能是一条重要途径。因此,本研究选取了3种氮素形态和3种环境下的2个籼稻基因型(Danteshwari × Dagad deshi)的32个重组自交系(RILs),共122个。NH4+-N和NO3——N动态变化趋势分析表明,厌氧条件下NH4+-N浓度持续时间更长,好氧条件下NO3——N浓度持续时间更长。三因素方差分析表明,各方差成分(G、N、E)及其互作效应(GXN、GXE、NXE、EXNXG)对产量和氮肥利用率及其组成性状的影响具有显著性。与NO3—N和no0相比,不同基因型在NH4+处理下的产量和氮肥利用率等重要农艺性状的平均表现更高。对产量和氮肥性状的qtl鉴定进行表型和基因型分析。在3种氮素形态和2种环境下,共检测到58个qtl,具有相应的5个性状。我们还研究了铵态转运体(AMT)、硝态转运体(NRT)、谷氨酰胺合成酶(GS)和谷氨酸合成酶(GOGAT)基因参与NUE的不同成员,并利用基因特异性引物分析了每个基因在水稻幼苗中的表达模式。总体而言,OsGln1;1、OsGln1;2、OsGln1;3、OsGln2、OsGlt1和OsGlt2对硝态氮和铵态氮的供应表现出不同且互反的响应。NH4+和NO3-处理显著影响了NR、NiR、GS和GOGAT酶的活性。这些结果有助于我们确定对NH4+和NO3响应的品种,这些品种可用于栽培和/或在未来的育种计划中作为亲本,以在水分胁迫和非胁迫条件下生产出更好的氮利用效率品种。
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