the telomeres shorten with age, impacting cell division.
端粒随着年龄增长而缩短,影响细胞分裂。
telomere length is often associated with longevity.
端粒长度通常与长寿相关。
researchers are studying telomere biology for potential therapies.
研究人员正在研究端粒生物学,以寻找潜在的治疗方法。
telomerase is an enzyme that lengthens telomeres.
端粒酶是一种可以延长端粒的酶。
shortened telomeres can trigger cellular senescence.
缩短的端粒会触发细胞衰老。
telomere dysfunction is linked to various age-related diseases.
端粒功能障碍与各种与年龄相关的疾病有关。
maintaining healthy telomeres is crucial for cellular health.
维持健康的端粒对于细胞健康至关重要。
telomere attrition contributes to the aging process.
端粒的损耗会促进衰老过程。
telomere capping protects chromosomes from damage.
端粒封盖保护染色体免受损伤。
telomere biology is a complex and fascinating field.
端粒生物学是一个复杂而迷人的领域。
telomere length varies between different cell types.
不同类型的细胞中端粒长度各不相同。
telomere dysfunction can lead to genomic instability.
端粒功能障碍会导致基因组不稳定。
the telomeres shorten with age, impacting cell division.
端粒随着年龄增长而缩短,影响细胞分裂。
telomere length is often associated with longevity.
端粒长度通常与长寿相关。
researchers are studying telomere biology for potential therapies.
研究人员正在研究端粒生物学,以寻找潜在的治疗方法。
telomerase is an enzyme that lengthens telomeres.
端粒酶是一种可以延长端粒的酶。
shortened telomeres can trigger cellular senescence.
缩短的端粒会触发细胞衰老。
telomere dysfunction is linked to various age-related diseases.
端粒功能障碍与各种与年龄相关的疾病有关。
maintaining healthy telomeres is crucial for cellular health.
维持健康的端粒对于细胞健康至关重要。
telomere attrition contributes to the aging process.
端粒的损耗会促进衰老过程。
telomere capping protects chromosomes from damage.
端粒封盖保护染色体免受损伤。
telomere biology is a complex and fascinating field.
端粒生物学是一个复杂而迷人的领域。
telomere length varies between different cell types.
不同类型的细胞中端粒长度各不相同。
telomere dysfunction can lead to genomic instability.
端粒功能障碍会导致基因组不稳定。
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