机译:通过操纵N末端规则途径E3连接酶蛋白水溶液的表达增强了大麦的耐水耐涝性6
Univ Nottingham Sch Biosci Div Plant &
Crop Sci Loughborough Leics England;
Univ Nottingham Sch Biosci Div Plant &
Crop Sci Loughborough Leics England;
Silesian Univ Dept Genet Fac Biol &
Environm Protect Katowice Poland;
Univ Nottingham Sch Biosci Div Plant &
Crop Sci Loughborough Leics England;
Univ Nottingham Sch Biosci Div Plant &
Crop Sci Loughborough Leics England;
Silesian Univ Dept Genet Fac Biol &
Environm Protect Katowice Poland;
Silesian Univ Dept Genet Fac Biol &
Environm Protect Katowice Poland;
Univ Nottingham Sch Math Sci Nottingham NG7 2RD England;
SABMiller Plc SABMiller House Surrey England;
SABMiller Plc SABMiller House Surrey England;
Univ Paris 06 Univ Paris 04 UMR CNRS 7622 Seed Biol Lab Paris France;
Univ Nottingham Sch Biosci Div Plant &
Crop Sci Loughborough Leics England;
N-end rule; waterlogging; targeted proteolysis; ERFVIIs; PRT6;
机译:通过操纵N末端规则途径E3连接酶蛋白水溶液的表达增强了大麦的耐水耐涝性6
机译:通过操纵N结束规则途径E3连接酶蛋白水溶液的表达增强了大麦的耐水性耐受性6
机译:通过操纵N端的最终规则途径E3连接酶PROTEOLYSIS6提高大麦的耐涝能力
机译:E3泛素连接酶CBL-B通过抑制PI3K / AKT信号通路和P-糖蛋白下调逆转MCF-7 / ADR细胞的多药耐药性
机译:E3泛素连接酶在N端规则通路中的生理作用
机译:通过操纵N端规则途径E3连接酶PROTEOLYSIS6来增强大麦的抗涝能力
机译:通过操纵N端规则途径E3连接酶PROTEOLYSIS6来增强大麦的抗涝能力