机译:在酸性环境中的铁和铝诱导的钼耗尽阻碍了氮循环
Univ Georgia Dept Biochem &
Mol Biol Athens GA 30602 USA;
Univ Georgia Dept Biochem &
Mol Biol Athens GA 30602 USA;
Univ Georgia Dept Biochem &
Mol Biol Athens GA 30602 USA;
Univ Georgia Dept Biochem &
Mol Biol Athens GA 30602 USA;
Univ Missouri Dept Biochem Columbia MO 65211 USA;
Univ Missouri Dept Biochem Columbia MO 65211 USA;
Univ Missouri Dept Biochem Columbia MO 65211 USA;
Univ Georgia Dept Biochem &
Mol Biol Athens GA 30602 USA;
Oak Ridge Natl Lab Div Environm Sci Oak Ridge TN 37830 USA;
Univ Tennessee Dept Civil &
Environm Engn Knoxville TN 37996 USA;
Univ Washington Dept Civil &
Environm Engn Seattle WA 98495 USA;
Univ Washington Dept Civil &
Environm Engn Seattle WA 98495 USA;
Lawrence Berkeley Natl Lab Berkeley CA 94720 USA;
Lawrence Berkeley Natl Lab Berkeley CA 94720 USA;
Univ Missouri Dept Biochem Columbia MO 65211 USA;
Univ Tennessee Dept Civil &
Environm Engn Knoxville TN 37996 USA;
Univ Georgia Dept Biochem &
Mol Biol Athens GA 30602 USA;
机译:在酸性环境中的铁和铝诱导的钼耗尽阻碍了氮循环
机译:酸性介质中含铁和钴的氮掺杂碳纳米管上氧还原的电催化
机译:从自然环境中分离出不依赖钼的固氮酶的固氮细菌
机译:废弃酸性金属硫化物矿的铁 - ,硫,氮气和碳循环微生物群落
机译:具有二齿膦氧化物配体的单体钼(VI)配合物以及具有苯甲酸和次膦酸衍生物的二聚和四聚钼(V)簇的合成和表征,其中包含氧化钼,二氧化钼(mu-oxygen)和钼(4) )四氧化物(mu3-氧)结构基序
机译:固氮酶铁和钼铁蛋白的对接用于电子转移和MgATP水解:葡萄固氮菌铁蛋白中精氨酸140和赖氨酸143的作用。
机译:在酸性环境中的铁和铝诱导的钼耗尽阻碍了氮循环