the gammaproteobacteria phylum represents one of the most diverse groups of bacteria in marine environments.
γ-變形菌門代表了海洋環境中細菌多樣性最高的群體之一。
researchers discovered that gammaproteobacteria play crucial roles in nutrient cycling within ocean ecosystems.
研究人員發現γ-變形菌在海洋生態系統的營養循環中扮演著關鍵角色。
many pathogenic species belong to the class gammaproteobacteria, including several medically important genera.
許多致病物種屬於γ-變形菌綱,其中包括幾個在醫學上重要的屬。
gut microbiome studies reveal that gammaproteobacteria composition varies significantly among different host species.
腸道微生物組研究顯示,γ-變形菌的組成在不同宿主物種之間有顯著差異。
phylogenetic analysis of gammaproteobacteria has revealed complex evolutionary relationships within this bacterial class.
對γ-變形菌的系統發生學分析揭示了該細菌綱內複雜的演化關係。
some gammaproteobacteria species have developed antibiotic resistance mechanisms that pose significant clinical challenges.
一些γ-變形菌物種已經發展出抗生素抗性機制,這對臨床治療構成了重大挑戰。
environmental dna sequencing has uncovered unexpected diversity within gammaproteobacteria communities.
環境DNA測序揭示了γ-變形菌群落中意想不到的多樣性。
the metabolic versatility of gammaproteobacteria allows them to thrive in extreme environmental conditions.
γ-變形菌的代謝多樣性使它們能在極端環境條件下生存繁衍。
scientists are studying how gammaproteobacteria contribute to bioremediation efforts in polluted ecosystems.
科學家正在研究γ-變形菌如何參與污染生態系統的生物修復工作。
horizontal gene transfer has significantly shaped the genomic characteristics of gammaproteobacteria populations.
水平基因轉移顯著塑造了γ-變形菌群體的基因組特徵。
clinical microbiologists frequently identify gammaproteobacteria in samples from patients with hospital-acquired infections.
臨床微生物學家經常在醫院感染患者的樣本中鑒定出γ-變形菌。
the ecological significance of gammaproteobacteria extends to their role in symbiotic relationships with marine organisms.
γ-變形菌的生態學意義延伸到它們與海洋生物的共生關係中。
the gammaproteobacteria phylum represents one of the most diverse groups of bacteria in marine environments.
γ-變形菌門代表了海洋環境中細菌多樣性最高的群體之一。
researchers discovered that gammaproteobacteria play crucial roles in nutrient cycling within ocean ecosystems.
研究人員發現γ-變形菌在海洋生態系統的營養循環中扮演著關鍵角色。
many pathogenic species belong to the class gammaproteobacteria, including several medically important genera.
許多致病物種屬於γ-變形菌綱,其中包括幾個在醫學上重要的屬。
gut microbiome studies reveal that gammaproteobacteria composition varies significantly among different host species.
腸道微生物組研究顯示,γ-變形菌的組成在不同宿主物種之間有顯著差異。
phylogenetic analysis of gammaproteobacteria has revealed complex evolutionary relationships within this bacterial class.
對γ-變形菌的系統發生學分析揭示了該細菌綱內複雜的演化關係。
some gammaproteobacteria species have developed antibiotic resistance mechanisms that pose significant clinical challenges.
一些γ-變形菌物種已經發展出抗生素抗性機制,這對臨床治療構成了重大挑戰。
environmental dna sequencing has uncovered unexpected diversity within gammaproteobacteria communities.
環境DNA測序揭示了γ-變形菌群落中意想不到的多樣性。
the metabolic versatility of gammaproteobacteria allows them to thrive in extreme environmental conditions.
γ-變形菌的代謝多樣性使它們能在極端環境條件下生存繁衍。
scientists are studying how gammaproteobacteria contribute to bioremediation efforts in polluted ecosystems.
科學家正在研究γ-變形菌如何參與污染生態系統的生物修復工作。
horizontal gene transfer has significantly shaped the genomic characteristics of gammaproteobacteria populations.
水平基因轉移顯著塑造了γ-變形菌群體的基因組特徵。
clinical microbiologists frequently identify gammaproteobacteria in samples from patients with hospital-acquired infections.
臨床微生物學家經常在醫院感染患者的樣本中鑒定出γ-變形菌。
the ecological significance of gammaproteobacteria extends to their role in symbiotic relationships with marine organisms.
γ-變形菌的生態學意義延伸到它們與海洋生物的共生關係中。
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