telomeric length
端粒长度
telomeric region
端粒区域
telomeric dna
端粒DNA
telomeric sequence
端粒序列
telomeric repeat
端粒重复
telomeric structure
端粒结构
telomeric shortening
端粒缩短
telomeric function
端粒功能
telomeric protein
端粒蛋白
telomeric maintenance
端粒维持
telomeric sequences play a crucial role in cellular aging.
端粒序列在细胞衰老中起着至关重要的作用。
researchers are studying telomeric length to understand cancer development.
研究人员正在研究端粒长度以了解癌症的发展。
telomeric dna is essential for maintaining chromosome stability.
端粒DNA对于维持染色体稳定性至关重要。
telomeric regions are often targeted in gene therapy.
端粒区域通常在基因治疗中被靶向。
telomeric shortening is associated with age-related diseases.
端粒缩短与年龄相关的疾病有关。
scientists are exploring telomeric extension as a means to enhance longevity.
科学家们正在探索端粒延长作为增强寿命的一种手段。
telomeric repeats are crucial for protecting genetic information.
端粒重复序列对于保护遗传信息至关重要。
understanding telomeric dynamics can provide insights into aging.
理解端粒动态可以提供对衰老的见解。
telomeric maintenance mechanisms are vital for stem cell function.
端粒维持机制对干细胞功能至关重要。
alterations in telomeric structure can lead to genetic instability.
端粒结构的改变可能导致遗传不稳定性。
telomeric length
端粒长度
telomeric region
端粒区域
telomeric dna
端粒DNA
telomeric sequence
端粒序列
telomeric repeat
端粒重复
telomeric structure
端粒结构
telomeric shortening
端粒缩短
telomeric function
端粒功能
telomeric protein
端粒蛋白
telomeric maintenance
端粒维持
telomeric sequences play a crucial role in cellular aging.
端粒序列在细胞衰老中起着至关重要的作用。
researchers are studying telomeric length to understand cancer development.
研究人员正在研究端粒长度以了解癌症的发展。
telomeric dna is essential for maintaining chromosome stability.
端粒DNA对于维持染色体稳定性至关重要。
telomeric regions are often targeted in gene therapy.
端粒区域通常在基因治疗中被靶向。
telomeric shortening is associated with age-related diseases.
端粒缩短与年龄相关的疾病有关。
scientists are exploring telomeric extension as a means to enhance longevity.
科学家们正在探索端粒延长作为增强寿命的一种手段。
telomeric repeats are crucial for protecting genetic information.
端粒重复序列对于保护遗传信息至关重要。
understanding telomeric dynamics can provide insights into aging.
理解端粒动态可以提供对衰老的见解。
telomeric maintenance mechanisms are vital for stem cell function.
端粒维持机制对干细胞功能至关重要。
alterations in telomeric structure can lead to genetic instability.
端粒结构的改变可能导致遗传不稳定性。
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