studying eukaryotes
研究真核生物
eukaryotes only
仅有真核生物
complex eukaryotes
复杂的真核生物
eukaryotes thrive
真核生物繁荣
eukaryotes evolve
真核生物进化
containing eukaryotes
含有真核生物
eukaryotes' dna
真核生物的dna
eukaryotes exist
真核生物存在
eukaryotes, unlike prokaryotes, possess a nucleus within their cells.
真核生物,与原核生物不同,其细胞内具有细胞核。
the evolution of eukaryotes marked a significant turning point in life's history.
真核生物的进化标志着生命历史上的一个重要转折点。
fungi, plants, and animals are all eukaryotes.
真菌、植物和动物都是真核生物。
eukaryotic cells are generally larger and more complex than prokaryotic cells.
真核细胞通常比原核细胞更大更复杂。
researchers are studying the unique features of eukaryotes to understand their evolution.
研究人员正在研究真核生物的独特特征,以了解它们的进化。
the presence of membrane-bound organelles is a defining characteristic of eukaryotes.
存在膜结合的细胞器是真核生物的一个定义特征。
eukaryotes often form multicellular organisms with specialized tissues and organs.
真核生物通常形成具有专门组织和器官的多细胞生物。
genetic diversity is often greater in eukaryotes compared to prokaryotes.
与原核生物相比,真核生物的遗传多样性通常更高。
the endosymbiotic theory explains the origin of some eukaryotic organelles.
内共生理论解释了某些真核细胞器的起源。
eukaryotic reproduction can occur through both sexual and asexual means.
真核生物的繁殖可以通过有性和无性方式进行。
understanding eukaryotes is crucial for advancements in medicine and biotechnology.
理解真核生物对于医学和生物技术的进步至关重要。
studying eukaryotes
研究真核生物
eukaryotes only
仅有真核生物
complex eukaryotes
复杂的真核生物
eukaryotes thrive
真核生物繁荣
eukaryotes evolve
真核生物进化
containing eukaryotes
含有真核生物
eukaryotes' dna
真核生物的dna
eukaryotes exist
真核生物存在
eukaryotes, unlike prokaryotes, possess a nucleus within their cells.
真核生物,与原核生物不同,其细胞内具有细胞核。
the evolution of eukaryotes marked a significant turning point in life's history.
真核生物的进化标志着生命历史上的一个重要转折点。
fungi, plants, and animals are all eukaryotes.
真菌、植物和动物都是真核生物。
eukaryotic cells are generally larger and more complex than prokaryotic cells.
真核细胞通常比原核细胞更大更复杂。
researchers are studying the unique features of eukaryotes to understand their evolution.
研究人员正在研究真核生物的独特特征,以了解它们的进化。
the presence of membrane-bound organelles is a defining characteristic of eukaryotes.
存在膜结合的细胞器是真核生物的一个定义特征。
eukaryotes often form multicellular organisms with specialized tissues and organs.
真核生物通常形成具有专门组织和器官的多细胞生物。
genetic diversity is often greater in eukaryotes compared to prokaryotes.
与原核生物相比,真核生物的遗传多样性通常更高。
the endosymbiotic theory explains the origin of some eukaryotic organelles.
内共生理论解释了某些真核细胞器的起源。
eukaryotic reproduction can occur through both sexual and asexual means.
真核生物的繁殖可以通过有性和无性方式进行。
understanding eukaryotes is crucial for advancements in medicine and biotechnology.
理解真核生物对于医学和生物技术的进步至关重要。
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