作物学报
作物學報
작물학보
ACTA AGRONOMICA SINICA
2015年
5期
708-716
,共9页
宋仲戬%张登峰%李永祥%石云素%宋燕春%王天宇%黎裕
宋仲戩%張登峰%李永祥%石雲素%宋燕春%王天宇%黎裕
송중전%장등봉%리영상%석운소%송연춘%왕천우%려유
玉米%分子伴侣%ZmBiP2%拟南芥%逆境胁迫
玉米%分子伴侶%ZmBiP2%擬南芥%逆境脅迫
옥미%분자반려%ZmBiP2%의남개%역경협박
Maize%Molecular chaperone%ZmBiP2%Arabidopsis%Abiotic stress
BiP (binding protein)基因编码的蛋白是一类重要的分子伴侣,在动植物的逆境胁迫响应过程中具有重要的作用。从玉米抗旱自交系旱21中分离到分子伴侣基因ZmBiP2,序列分析结果显示,该基因开放阅读框长1989 bp,编码含663个氨基酸的蛋白,包含热激蛋白家族特有的TVIGIDLGTTYSC保守结构域和ATP结合位点。实时荧光定量PCR结果显示, ZmBiP2基因在玉米的雄穗和子房中表达量最高;在盐、甘露醇胁迫条件下,该基因在植株的地上部分上调表达。过量表达ZmBiP2基因的拟南芥转基因株系在种子萌发时期对盐和甘露醇胁迫的耐受能力减弱,在苗期对盐胁迫敏感。推测在植物响应非生物胁迫的过程中,过量表达的ZmBiP2蛋白可能发挥负调节蛋白的功能。
BiP (binding protein)基因編碼的蛋白是一類重要的分子伴侶,在動植物的逆境脅迫響應過程中具有重要的作用。從玉米抗旱自交繫旱21中分離到分子伴侶基因ZmBiP2,序列分析結果顯示,該基因開放閱讀框長1989 bp,編碼含663箇氨基痠的蛋白,包含熱激蛋白傢族特有的TVIGIDLGTTYSC保守結構域和ATP結閤位點。實時熒光定量PCR結果顯示, ZmBiP2基因在玉米的雄穗和子房中錶達量最高;在鹽、甘露醇脅迫條件下,該基因在植株的地上部分上調錶達。過量錶達ZmBiP2基因的擬南芥轉基因株繫在種子萌髮時期對鹽和甘露醇脅迫的耐受能力減弱,在苗期對鹽脅迫敏感。推測在植物響應非生物脅迫的過程中,過量錶達的ZmBiP2蛋白可能髮揮負調節蛋白的功能。
BiP (binding protein)기인편마적단백시일류중요적분자반려,재동식물적역경협박향응과정중구유중요적작용。종옥미항한자교계한21중분리도분자반려기인ZmBiP2,서렬분석결과현시,해기인개방열독광장1989 bp,편마함663개안기산적단백,포함열격단백가족특유적TVIGIDLGTTYSC보수결구역화ATP결합위점。실시형광정량PCR결과현시, ZmBiP2기인재옥미적웅수화자방중표체량최고;재염、감로순협박조건하,해기인재식주적지상부분상조표체。과량표체ZmBiP2기인적의남개전기인주계재충자맹발시기대염화감로순협박적내수능력감약,재묘기대염협박민감。추측재식물향응비생물협박적과정중,과량표체적ZmBiP2단백가능발휘부조절단백적공능。
BiP gene, coding an important molecular chaperone, plays an important role in response to stress conditions. In our study, ZmBiP2 gene was identified and characterized in maize“Han 21”inbred line. ZmBiP2 gene has an ORF of 1989 bp and encodes a protein containing 663 amino acids. The deduced protein of ZmBiP2 was predicted to contain a TVIGIDLGTTYSC domain, which was highly conserved in HSP70 protein family, and an ATP-binding site. Real-time quantitative PCR analysis re-vealed that ZmBiP2 gene had different expression patterns in different organs, with the high expression level in tassel and ovaries. Under mannitol and NaCl stress conditions, ZmBiP2 showed an up-regulated expression in shoots. Overexpression of ZmBiP2 in Arabidopsis showed hypersensitivities to mannitol stresses at the germination stage. Overexpression of ZmBiP2 in Arabidopsis conferred hypersensitivities to salt stress at both germination stage and seedling stage. These results suggested that overexpression of ZmBiP2 might function as a negative protein in response to abiotic stresses.