achromatin organization
染色質組織
study achromatin structure
研究染色質結構
achromatin condensation
染色質濃縮
achromatin decondensation
染色質解凝
visualize achromatin regions
可視化無色素核區域
achromatin-rich domains
富含無色素核的域
achromatin is a less condensed form of chromatin.
染色質的非濃縮形式稱爲無色素。
during interphase, most of the dna exists as achromatin.
在間期,大多數DNA以無色素形式存在。
achromatin is transcriptionally active.
無色素具有轉錄活性。
the study of achromatin helps us understand gene regulation.
研究無色素有助於我們理解基因調控。
electron microscopy can visualize the structure of achromatin.
電子顯微鏡可以觀察無色素的結構。
achromatin is associated with active gene expression.
無色素與活躍基因表達相關。
the transition from chromatin to achromatin is dynamic.
從染色質到無色素的轉變是動態的。
achromatin plays a crucial role in dna replication.
無色素在DNA複製中起着至關重要的作用。
mutations in genes involved in achromatin formation can lead to disease.
參與無色素形成的基因突變可能導致疾病。
researchers continue to explore the complex nature of achromatin.
研究人員繼續探索無色素的複雜本質。
achromatin organization
染色質組織
study achromatin structure
研究染色質結構
achromatin condensation
染色質濃縮
achromatin decondensation
染色質解凝
visualize achromatin regions
可視化無色素核區域
achromatin-rich domains
富含無色素核的域
achromatin is a less condensed form of chromatin.
染色質的非濃縮形式稱爲無色素。
during interphase, most of the dna exists as achromatin.
在間期,大多數DNA以無色素形式存在。
achromatin is transcriptionally active.
無色素具有轉錄活性。
the study of achromatin helps us understand gene regulation.
研究無色素有助於我們理解基因調控。
electron microscopy can visualize the structure of achromatin.
電子顯微鏡可以觀察無色素的結構。
achromatin is associated with active gene expression.
無色素與活躍基因表達相關。
the transition from chromatin to achromatin is dynamic.
從染色質到無色素的轉變是動態的。
achromatin plays a crucial role in dna replication.
無色素在DNA複製中起着至關重要的作用。
mutations in genes involved in achromatin formation can lead to disease.
參與無色素形成的基因突變可能導致疾病。
researchers continue to explore the complex nature of achromatin.
研究人員繼續探索無色素的複雜本質。
探索常見搜尋詞彙