megakaryocyte development
巨核细胞发育
megakaryocyte function
巨核细胞功能
megakaryocyte production
巨核细胞产生
megakaryocyte maturation
巨核细胞成熟
megakaryocyte lineage
巨核细胞谱系
megakaryocyte biology
巨核细胞生物学
megakaryocyte counts
巨核细胞计数
megakaryocyte signaling
巨核细胞信号传导
megakaryocyte disorders
巨核细胞疾病
megakaryocyte markers
巨核细胞标记物
the megakaryocyte plays a crucial role in the production of platelets.
巨核细胞在血小板的生成中发挥着关键作用。
researchers are studying megakaryocyte development in the bone marrow.
研究人员正在研究骨髓中巨核细胞的发展。
abnormal megakaryocyte function can lead to various blood disorders.
巨核细胞功能异常可能导致各种血液疾病。
increased megakaryocyte numbers can indicate a response to inflammation.
巨核细胞数量增加可能表明对炎症的反应。
megakaryocyte maturation is essential for effective hemostasis.
巨核细胞的成熟对有效止血至关重要。
scientists are exploring the genetic regulation of megakaryocyte differentiation.
科学家们正在探索巨核细胞分化的基因调控。
megakaryocytes can be identified by specific surface markers.
巨核细胞可以通过特定的表面标记进行识别。
platelet production begins with the fragmentation of megakaryocytes.
血小板的生成始于巨核细胞的碎裂。
understanding megakaryocyte biology is vital for developing new therapies.
了解巨核细胞生物学对开发新疗法至关重要。
megakaryocyte activity can be influenced by various cytokines.
巨核细胞的活性可以受到多种细胞因子的影响。
megakaryocyte development
巨核细胞发育
megakaryocyte function
巨核细胞功能
megakaryocyte production
巨核细胞产生
megakaryocyte maturation
巨核细胞成熟
megakaryocyte lineage
巨核细胞谱系
megakaryocyte biology
巨核细胞生物学
megakaryocyte counts
巨核细胞计数
megakaryocyte signaling
巨核细胞信号传导
megakaryocyte disorders
巨核细胞疾病
megakaryocyte markers
巨核细胞标记物
the megakaryocyte plays a crucial role in the production of platelets.
巨核细胞在血小板的生成中发挥着关键作用。
researchers are studying megakaryocyte development in the bone marrow.
研究人员正在研究骨髓中巨核细胞的发展。
abnormal megakaryocyte function can lead to various blood disorders.
巨核细胞功能异常可能导致各种血液疾病。
increased megakaryocyte numbers can indicate a response to inflammation.
巨核细胞数量增加可能表明对炎症的反应。
megakaryocyte maturation is essential for effective hemostasis.
巨核细胞的成熟对有效止血至关重要。
scientists are exploring the genetic regulation of megakaryocyte differentiation.
科学家们正在探索巨核细胞分化的基因调控。
megakaryocytes can be identified by specific surface markers.
巨核细胞可以通过特定的表面标记进行识别。
platelet production begins with the fragmentation of megakaryocytes.
血小板的生成始于巨核细胞的碎裂。
understanding megakaryocyte biology is vital for developing new therapies.
了解巨核细胞生物学对开发新疗法至关重要。
megakaryocyte activity can be influenced by various cytokines.
巨核细胞的活性可以受到多种细胞因子的影响。
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