机译:基于蛋白质的稳定同位素探测(蛋白质-SIP)中质谱检测15N掺入的局限性
Department of Proteomics Helmholtz Centre for Environmental Research—UFZ">(1);
School of Environmental Sciences University of East Anglia">(2);
Department of Proteomics Helmholtz Centre for Environmental Research—UFZ">(1);
Department of Metabolomics Helmholtz Centre for Environmental Research—UFZ">(3);
Department of Biotechnology Chemistry and Environmental Engineering University of Aalborg">(4);
Department of Proteomics Helmholtz Centre for Environmental Research—UFZ">(1);
Institute of Animal Nutrition University of Hohenheim">(5);
Stable isotope probing; Protein-SIP; Mass spectrometry; Relative isotope abundance; 15N incorporation;
机译:基于蛋白质的稳定同位素探测(protein-SIP)中质谱检测〜(15)N掺入的局限性
机译:探索基于蛋白质的稳定同位素探测(protein-SIP)中通过质谱可靠地检测13C掺入的极限
机译:探索基于蛋白质的稳定同位素探测(protein-SIP)中通过质谱法可靠检测掺入 13 sup> C的极限
机译:结合系统发育微阵列和高分辨率二次离子质谱技术对RNA进行稳定同位素探测,以链接微生物系统的组成和功能
机译:使用连续流同位素比质谱法对大气中非甲烷碳氢化合物进行稳定的碳同位素分析。
机译:气相色谱/燃烧/同位素比质谱法测定土壤微生物量对氮的同化作用的化合物特异性氨基酸15N稳定同位素探测
机译:基于蛋白质的稳定同位素探测(蛋白质-sIp)揭示了缺氧混合培养物中的活性物种