BMC Plant Biol:中國農(nóng)科院丨油菜素內(nèi)酯促黃瓜根系銨硝吸收機制-自主發(fā)布-資訊-生物在線

女人与狗锁死了视频大全|霍金死亡过程恐怖视频|无节社团简谱季免费观看|六间房直播大厅|中文字幕欧美另类精品|久久人人玩人妻潮喷内射人人|亚洲国产一区二区三区在线观看

BMC Plant Biol:中國農(nóng)科院丨油菜素內(nèi)酯促黃瓜根系銨硝吸收機制

作者:旭月(北京)科技有限公司 2019-06-27T13:52 (訪問量:4215)

??轉(zhuǎn)自“中關(guān)村NMT聯(lián)盟”

期刊:BMC Plant Biology

主題:油菜素內(nèi)酯促黃瓜根系銨硝吸收機制

標(biāo)題:24-Epibrassinolide promotes NO3- andNH4+ ion flux rate and NRT1 gene expression in cucumber under suboptimal root zone temperature

影響因子:3.930

檢測指標(biāo):NO3-、NH4+流速

檢測部位:根毛區(qū)

作者:中國農(nóng)業(yè)科學(xué)院蔬菜與花卉研究所Ali Anwar、李衍素、于賢昌

點擊觀看視頻


英文摘要

Suboptimal root zone temperature (RZT) causes a remarkable reduction in growth of horticultural crops during winter cultivation under greenhouse production. However, limited information is available on the effects of suboptimal RZT on nitrogen (N) metabolism in cucumber seedlings. The aim of this study is to investigate the effects of 24-Epibrassinolide (EBR) on nitrate and ammonium flux rate, N metabolism, and transcript levels of NRT1 family genes under suboptimal RZT in cucumber seedlings.


Suboptimal RZT (LT) negatively affected on cucumber growth and proportionately decreased EBR contents, bleeding rate, root activity, enzyme activities of nitrate reductase (NR), nitrite reductase (NiR), glutamine synthetase (GS), and glutamate synthase (GOGAT), nitrate (NO3?) influx rate, ammonium (NH4+) efflux rate, and transcript levels of nitrate transporter (NRT1) encoding genes. However, exogenous EBR reduced the harmful effects of suboptimal RZT and increased endogenous EBR contents, bleeding rate, root activity, enzyme activities of NR, NiR, GS, and GOGAT, NH4+ and NO3? flux rates and contents, and N accumulation. EBR-treated seedlings also upregulated the transcript levels of nitrate transporters CsNRT1.1, CsNRT1.2A, CsNRT1.2B, CsNRT1.2C, CsNRT1.3, CsNRT1.4A, CsNRT1.5B, CsNRT1.5C, CsNRT1.9, and CsNRT1.10, and downregulated CsNRT1.5A and CsNRT1.8. LT treatment upregulated the expression level of CsNRT1.5A, while exogenous BZR application downregulated the expression level of NRT1 genes.

These results indicate that exogenous application of EBR alleviated the harmful effects of suboptimal RZT through changes in N metabolism, NH4+ and NO3? flux rates, and NRT1 gene expression, leading to improved cucumber seedlings growth. Our study provides the first evidence of the role of EBR in the response to suboptimal RZT in cucumber, and can be used to improve vegetable production.

中文摘要(谷歌機翻)

次優(yōu)根區(qū)溫度(RZT)導(dǎo)致在溫室生產(chǎn)期間冬季栽培期間園藝作物的生長顯著減少。然而,關(guān)于次優(yōu)RZT對黃瓜幼苗中氮(N)代謝的影響的信息有限。本研究的目的是研究24-表油菜素內(nèi)酯(EBR)對黃瓜幼苗次優(yōu)RZT下NRT1家族基因的**鹽和銨通量,N代謝和轉(zhuǎn)錄水平的影響。

次優(yōu)RZT(LT)對黃瓜生長有負(fù)面影響,并且比例降低EBR含量,出血率,根系活力,**還原酶(NR),亞**還原酶(NiR),谷氨酰胺合成酶(GS)和谷氨酸合成酶(GOGAT)的酶活性,**鹽(NO3-)流入速率,銨(NH4 +)流出速率和**鹽轉(zhuǎn)運蛋白(NRT1)編碼基因的轉(zhuǎn)錄水平。然而,外源EBR降低了次優(yōu)RZT的有害作用,增加了內(nèi)源EBR含量,出血率,根系活力,NR,NiR,GS和GOGAT的酶活性,NH4 +和NO3-通量率和含量以及N積累。 EBR處理的幼苗也上調(diào)了**鹽轉(zhuǎn)運蛋白CsNRT1.1,CsNRT1.2A,CsNRT1.2B,CsNRT1.2C,CsNRT1.3,CsNRT1.4A,CsNRT1.5B,CsNRT1.5C,CsNRT1.9和CsNRT1的轉(zhuǎn)錄水平。 .10,并下調(diào)CsNRT1.5A和CsNRT1.8。 LT處理上調(diào)CsNRT1.5A的表達(dá)水平,而外源BZR應(yīng)用下調(diào)NRT1基因的表達(dá)水平。

這些結(jié)果表明,外源施用EBR通過改變N代謝,NH4 +和NO3-通量率以及NRT1基因表達(dá)減輕了次優(yōu)RZT的有害作用,從而改善了黃瓜幼苗的生長。我們的研究首次證明了EBR在黃瓜中對次優(yōu)RZT的反應(yīng)中的作用,并可用于改善蔬菜生產(chǎn)。

Fig. 4 Effects of suboptimal RZT and EBR on NO3- (A; scatter NO3- flux rate, B; average NO3- flux rate) flux rate in roots of cucumber seedlings under suboptimal RZT treatment. Flux rate was recorded for 10?min in roots seven days after treatment. Each point is the mean of nine individual seedlings and bars indicate standard deviations. Treatments with the same letters are not significantly different by the least significant difference (LSD) test at P?=?0.05

文章鏈接:

https://bmcplantbiol.biomedcentral.com/articles/10.1186/s12870-019-1838-3

中關(guān)村NMT聯(lián)盟統(tǒng)籌安排全國NMT測試服務(wù),如需開展NMT相關(guān)實驗,請聯(lián)系聯(lián)盟:010-8262 4800轉(zhuǎn)12

旭月版權(quán)所有,轉(zhuǎn)載注明出處

旭月(北京)科技有限公司 商家主頁

地 址: 海淀區(qū)蘇州街49-3號盈智大廈601室

聯(lián)系人:

電 話: 010-82622628;010-62656315;010-62523549

傳 真: 010-82622629(傳真/直撥電話)

Email:china@youngerusa.cn

相關(guān)咨詢

【成果回顧】MP萬建民院士:無損"電生理"Ca2+流作為膜通道功能核心驗證手段 為揭示CNGC9通道調(diào)控水稻低溫響應(yīng)機制提供證據(jù) (2021-09-17T11:33 瀏覽數(shù):29716)

S Shabala、陳仲華:葉肉細(xì)胞排Cl-排K+速率可用于預(yù)測溫室和大田水稻生殖期的耐鹽能力 (2021-09-17T11:16 瀏覽數(shù):28800)

New Phytol于彥春/武麗敏:NMT發(fā)現(xiàn)KAR酶失活致熱激后葉肉吸Ca失調(diào)為KAR酶通過調(diào)節(jié)脅迫信號賦予水稻耐熱性提供證據(jù) (2021-09-14T15:51 瀏覽數(shù):31086)

【成果回顧】種康院士:NMT發(fā)現(xiàn)冷脅迫下CIPK7點突變水稻根吸Ca2+​增強 為CIPKs調(diào)控水稻耐寒機制的研究提供關(guān)鍵證據(jù) (2021-09-14T15:46 瀏覽數(shù):30487)

山農(nóng)學(xué)者:種子吸Ca2+速率可作為種子活力快速評價指標(biāo) (2021-09-10T15:13 瀏覽數(shù):33250)

【成果回顧】MP謝旗:NMT發(fā)現(xiàn)VPS23A促鹽脅迫下根排Na+為ESCRT組分增強SOS模塊功能維持?jǐn)M南芥耐鹽提供證據(jù) (2021-09-10T14:57 瀏覽數(shù):27778)

Crop J南農(nóng)張阿英:NMT發(fā)現(xiàn)CBL5促鹽脅迫下根排Na+為CBLs通過調(diào)節(jié)Na+穩(wěn)態(tài)促谷子耐鹽提供直接證據(jù) (2021-09-10T14:33 瀏覽數(shù):28590)

北林:NMT發(fā)現(xiàn)NO促Pb吸收并誘導(dǎo)Ca2+流紊亂 為NO增強Pb毒性的機制研究提供證據(jù) (2021-09-03T16:18 瀏覽數(shù):28763)

【成果回顧】西北研究院:NMT發(fā)現(xiàn)FAD3通過亞麻酸調(diào)節(jié)Ca2+信號增強煙草對多重脅迫的耐受性 (2021-09-03T15:59 瀏覽數(shù):27338)

中國林科院張華新、楊秀艷:NMT發(fā)現(xiàn)白刺通過維持葉肉排Na+保K+能力及H+泵活性來適應(yīng)鹽脅迫 (2021-08-31T16:01 瀏覽數(shù):28983)

ADVERTISEMENT