euploid organism
整倍体生物
euploid cells
整倍体细胞
euploid chromosome
整倍体染色体
euploid condition
整倍体状态
euploid number
整倍体数目
euploid species
整倍体物种
euploid karyotype
整倍体核型
euploid genetic
整倍体遗传
euploid plant
整倍体植物
euploid line
整倍体系
the euploid number of chromosomes is essential for normal development.
正常发育所需的染色体数是均倍体数。
researchers found that euploid embryos have a higher implantation rate.
研究人员发现均倍体胚胎的植入率更高。
euploid cells are crucial for maintaining genetic stability.
均倍体细胞对维持遗传稳定性至关重要。
in humans, the euploid state typically consists of 46 chromosomes.
在人类中,均倍体状态通常由46条染色体组成。
detecting euploid cells can help in prenatal diagnosis.
检测均倍体细胞有助于产前诊断。
euploid and aneuploid cells exhibit different behaviors during cell division.
均倍体和非均倍体细胞在细胞分裂过程中表现出不同的行为。
many studies focus on the advantages of euploid embryos in ivf.
许多研究集中在试管婴儿中均倍体胚胎的优势上。
euploid status is associated with better fertility outcomes.
均倍体状态与更好的生育结果相关。
genetic counseling often involves discussions about euploid and aneuploid conditions.
遗传咨询通常涉及关于均倍体和非均倍体状况的讨论。
understanding euploidy is important in the field of genetics.
理解均倍体在遗传学领域中非常重要。
euploid organism
整倍体生物
euploid cells
整倍体细胞
euploid chromosome
整倍体染色体
euploid condition
整倍体状态
euploid number
整倍体数目
euploid species
整倍体物种
euploid karyotype
整倍体核型
euploid genetic
整倍体遗传
euploid plant
整倍体植物
euploid line
整倍体系
the euploid number of chromosomes is essential for normal development.
正常发育所需的染色体数是均倍体数。
researchers found that euploid embryos have a higher implantation rate.
研究人员发现均倍体胚胎的植入率更高。
euploid cells are crucial for maintaining genetic stability.
均倍体细胞对维持遗传稳定性至关重要。
in humans, the euploid state typically consists of 46 chromosomes.
在人类中,均倍体状态通常由46条染色体组成。
detecting euploid cells can help in prenatal diagnosis.
检测均倍体细胞有助于产前诊断。
euploid and aneuploid cells exhibit different behaviors during cell division.
均倍体和非均倍体细胞在细胞分裂过程中表现出不同的行为。
many studies focus on the advantages of euploid embryos in ivf.
许多研究集中在试管婴儿中均倍体胚胎的优势上。
euploid status is associated with better fertility outcomes.
均倍体状态与更好的生育结果相关。
genetic counseling often involves discussions about euploid and aneuploid conditions.
遗传咨询通常涉及关于均倍体和非均倍体状况的讨论。
understanding euploidy is important in the field of genetics.
理解均倍体在遗传学领域中非常重要。
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