the gammaproteobacteria phylum represents one of the most diverse groups of bacteria in marine environments.
gammaproteobacteria门代表了海洋环境中细菌种类最为多样的类群之一。
researchers discovered that gammaproteobacteria play crucial roles in nutrient cycling within ocean ecosystems.
研究人员发现gammaproteobacteria在海洋生态系统的营养循环中起着至关重要的作用。
many pathogenic species belong to the class gammaproteobacteria, including several medically important genera.
许多致病物种属于gammaproteobacteria纲,包括几个医学上重要的属。
gut microbiome studies reveal that gammaproteobacteria composition varies significantly among different host species.
肠道微生物组研究表明,不同宿主物种之间gammaproteobacteria的组成存在显著差异。
phylogenetic analysis of gammaproteobacteria has revealed complex evolutionary relationships within this bacterial class.
gammaproteobacteria的系统发育分析揭示了该细菌纲内复杂的进化关系。
some gammaproteobacteria species have developed antibiotic resistance mechanisms that pose significant clinical challenges.
一些gammaproteobacteria物种已经发展出耐药机制,对临床治疗构成重大挑战。
environmental dna sequencing has uncovered unexpected diversity within gammaproteobacteria communities.
环境dna测序发现了gammaproteobacteria群落中意想不到的多样性。
the metabolic versatility of gammaproteobacteria allows them to thrive in extreme environmental conditions.
gammaproteobacteria的代谢多样性使它们能够在极端环境条件下茁壮成长。
scientists are studying how gammaproteobacteria contribute to bioremediation efforts in polluted ecosystems.
科学家正在研究gammaproteobacteria如何促进污染生态系统中的生物修复工作。
horizontal gene transfer has significantly shaped the genomic characteristics of gammaproteobacteria populations.
水平基因转移显著塑造了gammaproteobacteria种群的基因组特征。
clinical microbiologists frequently identify gammaproteobacteria in samples from patients with hospital-acquired infections.
临床微生物学家经常在医院获得性感染患者的样本中识别出gammaproteobacteria。
the ecological significance of gammaproteobacteria extends to their role in symbiotic relationships with marine organisms.
gammaproteobacteria的生态意义延伸到它们与海洋生物共生关系中的作用。
the gammaproteobacteria phylum represents one of the most diverse groups of bacteria in marine environments.
gammaproteobacteria门代表了海洋环境中细菌种类最为多样的类群之一。
researchers discovered that gammaproteobacteria play crucial roles in nutrient cycling within ocean ecosystems.
研究人员发现gammaproteobacteria在海洋生态系统的营养循环中起着至关重要的作用。
many pathogenic species belong to the class gammaproteobacteria, including several medically important genera.
许多致病物种属于gammaproteobacteria纲,包括几个医学上重要的属。
gut microbiome studies reveal that gammaproteobacteria composition varies significantly among different host species.
肠道微生物组研究表明,不同宿主物种之间gammaproteobacteria的组成存在显著差异。
phylogenetic analysis of gammaproteobacteria has revealed complex evolutionary relationships within this bacterial class.
gammaproteobacteria的系统发育分析揭示了该细菌纲内复杂的进化关系。
some gammaproteobacteria species have developed antibiotic resistance mechanisms that pose significant clinical challenges.
一些gammaproteobacteria物种已经发展出耐药机制,对临床治疗构成重大挑战。
environmental dna sequencing has uncovered unexpected diversity within gammaproteobacteria communities.
环境dna测序发现了gammaproteobacteria群落中意想不到的多样性。
the metabolic versatility of gammaproteobacteria allows them to thrive in extreme environmental conditions.
gammaproteobacteria的代谢多样性使它们能够在极端环境条件下茁壮成长。
scientists are studying how gammaproteobacteria contribute to bioremediation efforts in polluted ecosystems.
科学家正在研究gammaproteobacteria如何促进污染生态系统中的生物修复工作。
horizontal gene transfer has significantly shaped the genomic characteristics of gammaproteobacteria populations.
水平基因转移显著塑造了gammaproteobacteria种群的基因组特征。
clinical microbiologists frequently identify gammaproteobacteria in samples from patients with hospital-acquired infections.
临床微生物学家经常在医院获得性感染患者的样本中识别出gammaproteobacteria。
the ecological significance of gammaproteobacteria extends to their role in symbiotic relationships with marine organisms.
gammaproteobacteria的生态意义延伸到它们与海洋生物共生关系中的作用。
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