西北植物学报
西北植物學報
서북식물학보
ACTA BOTANICA BOREALI-OCCIDENTALIA SINICA
2005年
4期
714-718
,共5页
刘文娟%袁澍%张年辉%雷韬%段辉国%梁厚果%杜林方%代其林%林宏辉
劉文娟%袁澍%張年輝%雷韜%段輝國%樑厚果%杜林方%代其林%林宏輝
류문연%원주%장년휘%뢰도%단휘국%량후과%두림방%대기림%림굉휘
基因表达%光系统Ⅱ%水分胁迫%小麦
基因錶達%光繫統Ⅱ%水分脅迫%小麥
기인표체%광계통Ⅱ%수분협박%소맥
gene expression%photosystemⅡ%water stress%wheat
两种小麦品种绵农4号(Triticum aestivum L. cv. Miannong No.4) 和绵农5号(Triticum aestivum L. cv. Miannong No.5)在渐进水分胁迫下相对含水量、质膜相对透性及光系统ⅡDCIP(2,6-二氯酚靛酚)光化学还原活性变化的差异显示,绵农5号小麦比绵农4号小麦具有较高的水分胁迫耐受力.进而对比了水分胁迫对这两种耐旱性不同的小麦品种的光系统Ⅱ在基因转录及蛋白代谢等方面的影响.结果表明:渐进水分胁迫下,两种小麦的光系统Ⅱ主要基因(psbA、psbD 、cab)的转录本水平及其编码蛋白(D1, D2 、LHCⅡ)的稳态含量分别下降20%及14%以上,而绵农5号cab基因的转录水平下降程度(39.5%)与绵农4号(61.8%)相比明显缓慢,这可能是其具有较高耐旱性的一个重要原因.
兩種小麥品種綿農4號(Triticum aestivum L. cv. Miannong No.4) 和綿農5號(Triticum aestivum L. cv. Miannong No.5)在漸進水分脅迫下相對含水量、質膜相對透性及光繫統ⅡDCIP(2,6-二氯酚靛酚)光化學還原活性變化的差異顯示,綿農5號小麥比綿農4號小麥具有較高的水分脅迫耐受力.進而對比瞭水分脅迫對這兩種耐旱性不同的小麥品種的光繫統Ⅱ在基因轉錄及蛋白代謝等方麵的影響.結果錶明:漸進水分脅迫下,兩種小麥的光繫統Ⅱ主要基因(psbA、psbD 、cab)的轉錄本水平及其編碼蛋白(D1, D2 、LHCⅡ)的穩態含量分彆下降20%及14%以上,而綿農5號cab基因的轉錄水平下降程度(39.5%)與綿農4號(61.8%)相比明顯緩慢,這可能是其具有較高耐旱性的一箇重要原因.
량충소맥품충면농4호(Triticum aestivum L. cv. Miannong No.4) 화면농5호(Triticum aestivum L. cv. Miannong No.5)재점진수분협박하상대함수량、질막상대투성급광계통ⅡDCIP(2,6-이록분전분)광화학환원활성변화적차이현시,면농5호소맥비면농4호소맥구유교고적수분협박내수력.진이대비료수분협박대저량충내한성불동적소맥품충적광계통Ⅱ재기인전록급단백대사등방면적영향.결과표명:점진수분협박하,량충소맥적광계통Ⅱ주요기인(psbA、psbD 、cab)적전록본수평급기편마단백(D1, D2 、LHCⅡ)적은태함량분별하강20%급14%이상,이면농5호cab기인적전록수평하강정도(39.5%)여면농4호(61.8%)상비명현완만,저가능시기구유교고내한성적일개중요원인.
Two wheat cultivars, Miannong 4(Triticum aestivum L.cv. Miannong No.4 ) and Miannong 5(Triticum aestivum L. cv. Miannong No.5) were used to study relative water content , relative plasmmembrane permeability , DCIP(2,6-dichlorophenol indophenol) photo redution activities in photosystem Ⅱ under progressive stresses. The differences in these regards showed that Miannong 4 and Miannong 5 had relatively high tolerance to the water stresses. Furthermore, the effects of the water stresses on the gene transcript and protein metabolism of photosystem Ⅱ in the two wheat varieties with different tolerances to the water stresses were also studied. The results showed that under the progressive stresses , the transcripts of major genes(psbA, psbD and cab) and coding proteins (D1,D2, LHCⅡ) of photosystemⅡ decreased by more than 20% and more than 14%, respectively. These reductions became weakened compared with cab transcripts of Miannong 4 and Miannong 5, which was an important reason for relatively high tolerance to water stress.