bacteriophages attack
噬菌体攻击
using bacteriophages
使用噬菌体
bacteriophage therapy
噬菌体疗法
researchers are investigating bacteriophages as a potential alternative to antibiotics.
研究人员正在调查噬菌体作为抗生素的潜在替代品。
bacteriophages specifically target and destroy bacteria, offering a unique therapeutic approach.
噬菌体专门针对并摧毁细菌,提供了一种独特的治疗方法。
the use of bacteriophages to combat antibiotic-resistant bacteria is gaining traction.
利用噬菌体对抗耐抗生素细菌的使用正在获得关注。
phage therapy, utilizing bacteriophages, shows promise in treating chronic infections.
噬菌体治疗,利用噬菌体,在治疗慢性感染方面显示出希望。
bacteriophages can be engineered to target specific bacterial strains with high precision.
噬菌体可以被设计用于以高精度靶向特定的细菌菌株。
the natural diversity of bacteriophages provides a vast resource for therapeutic development.
噬菌体的自然多样性为治疗开发提供了巨大的资源。
bacteriophages offer a potential solution to the growing problem of antibiotic resistance.
噬菌体为日益严重的抗生素耐药性问题提供了一个潜在的解决方案。
scientists are isolating novel bacteriophages from various environmental sources.
科学家们正在从各种环境来源中分离出新的噬菌体。
bacteriophages demonstrate a high degree of specificity, minimizing harm to the host microbiome.
噬菌体表现出高度的特异性,最大限度地减少对宿主微生物群的危害。
the efficacy of bacteriophages can be enhanced through phage cocktails and engineered phages.
噬菌体的有效性可以通过噬菌体混合物和工程噬菌体来提高。
understanding bacteriophage biology is crucial for developing effective antimicrobial strategies.
理解噬菌体生物学对于制定有效的抗菌策略至关重要。
bacteriophages attack
噬菌体攻击
using bacteriophages
使用噬菌体
bacteriophage therapy
噬菌体疗法
researchers are investigating bacteriophages as a potential alternative to antibiotics.
研究人员正在调查噬菌体作为抗生素的潜在替代品。
bacteriophages specifically target and destroy bacteria, offering a unique therapeutic approach.
噬菌体专门针对并摧毁细菌,提供了一种独特的治疗方法。
the use of bacteriophages to combat antibiotic-resistant bacteria is gaining traction.
利用噬菌体对抗耐抗生素细菌的使用正在获得关注。
phage therapy, utilizing bacteriophages, shows promise in treating chronic infections.
噬菌体治疗,利用噬菌体,在治疗慢性感染方面显示出希望。
bacteriophages can be engineered to target specific bacterial strains with high precision.
噬菌体可以被设计用于以高精度靶向特定的细菌菌株。
the natural diversity of bacteriophages provides a vast resource for therapeutic development.
噬菌体的自然多样性为治疗开发提供了巨大的资源。
bacteriophages offer a potential solution to the growing problem of antibiotic resistance.
噬菌体为日益严重的抗生素耐药性问题提供了一个潜在的解决方案。
scientists are isolating novel bacteriophages from various environmental sources.
科学家们正在从各种环境来源中分离出新的噬菌体。
bacteriophages demonstrate a high degree of specificity, minimizing harm to the host microbiome.
噬菌体表现出高度的特异性,最大限度地减少对宿主微生物群的危害。
the efficacy of bacteriophages can be enhanced through phage cocktails and engineered phages.
噬菌体的有效性可以通过噬菌体混合物和工程噬菌体来提高。
understanding bacteriophage biology is crucial for developing effective antimicrobial strategies.
理解噬菌体生物学对于制定有效的抗菌策略至关重要。
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