mitochondrial cristae
粒線體嵴
cristae formation
嵴形成
cristae structure
嵴結構
cristae damage
嵴損傷
cristae remodeling
嵴重塑
cristae dysfunction
嵴功能障礙
cristae morphology
嵴形態
cristae integrity
嵴完整性
cristae junction
嵴連接
cristae membrane
嵴膜
mitochondrial cristae are essential for cellular energy production through oxidative phosphorylation.
粒線體嵴對於細胞通過氧化磷酸化產生能量至關重要。
scientists have discovered that cristae morphology directly influences mitochondrial efficiency in atp synthesis.
科學家發現嵴的形態會直接影響粒線體在ATP合成中的效率。
disruptions in cristae structure have been linked to various neurodegenerative diseases and aging processes.
嵴結構的破壞與各種神經退化性疾病和衰老過程有關。
the inner membrane cristae create a large surface area necessary for efficient electron transport chain function.
內膜嵴創造出一個必要的大表面積,以實現電子傳遞鏈的高效功能。
recent studies reveal that cristae dynamics play a crucial role in regulating cell death pathways.
最近的研究顯示,嵴的動態在調節細胞死亡途徑中起著關鍵作用。
researchers observed significant cristae remodeling during the differentiation of stem cells into specialized tissues.
研究人員觀察到在幹細胞分化為特化組織的過程中,嵴結構有顯著的重塑。
electron microscopy allows detailed visualization of cristae architecture and its modifications under different physiological conditions.
電子顯微鏡允許在不同生理條件下詳細視覺化嵴的結構及其改變。
mutations affecting cristae junctions can lead to severe metabolic disorders and impaired energy metabolism.
影響嵴連接處的突變可能導致嚴重的代謝障礙和能量代謝受損。
the density of cristae within mitochondria correlates with the metabolic demands of different cell types.
粒線體內嵴的密度與不同細胞類型的代謝需求相關。
cristae serve as important platforms for the assembly of protein complexes involved in cellular respiration.
嵴作為細胞呼吸相關蛋白質複合物組裝的重要平台。
abnormal cristae shape is considered a hallmark of mitochondrial dysfunction in many pathological conditions.
異常的嵴形狀被認為是許多病理條件下粒線體功能障礙的特徵。
the composition of cardiolipin molecules is critical for maintaining proper cristae shape and mitochondrial function.
心磷脂分子的組成對於維持正常的嵴形狀和粒線體功能至關重要。
advanced imaging techniques now enable researchers to observe cristae movements in real-time within living cells.
先進的成像技術現在使研究人員能夠在活細胞中實時觀察嵴的運動。
defects in cristae folding mechanisms can trigger apoptotic pathways and cause widespread cellular damage.
嵴摺疊機制的缺陷可能觸發細胞凋亡途徑,並導致廣泛的細胞損傷。
mitochondrial cristae
粒線體嵴
cristae formation
嵴形成
cristae structure
嵴結構
cristae damage
嵴損傷
cristae remodeling
嵴重塑
cristae dysfunction
嵴功能障礙
cristae morphology
嵴形態
cristae integrity
嵴完整性
cristae junction
嵴連接
cristae membrane
嵴膜
mitochondrial cristae are essential for cellular energy production through oxidative phosphorylation.
粒線體嵴對於細胞通過氧化磷酸化產生能量至關重要。
scientists have discovered that cristae morphology directly influences mitochondrial efficiency in atp synthesis.
科學家發現嵴的形態會直接影響粒線體在ATP合成中的效率。
disruptions in cristae structure have been linked to various neurodegenerative diseases and aging processes.
嵴結構的破壞與各種神經退化性疾病和衰老過程有關。
the inner membrane cristae create a large surface area necessary for efficient electron transport chain function.
內膜嵴創造出一個必要的大表面積,以實現電子傳遞鏈的高效功能。
recent studies reveal that cristae dynamics play a crucial role in regulating cell death pathways.
最近的研究顯示,嵴的動態在調節細胞死亡途徑中起著關鍵作用。
researchers observed significant cristae remodeling during the differentiation of stem cells into specialized tissues.
研究人員觀察到在幹細胞分化為特化組織的過程中,嵴結構有顯著的重塑。
electron microscopy allows detailed visualization of cristae architecture and its modifications under different physiological conditions.
電子顯微鏡允許在不同生理條件下詳細視覺化嵴的結構及其改變。
mutations affecting cristae junctions can lead to severe metabolic disorders and impaired energy metabolism.
影響嵴連接處的突變可能導致嚴重的代謝障礙和能量代謝受損。
the density of cristae within mitochondria correlates with the metabolic demands of different cell types.
粒線體內嵴的密度與不同細胞類型的代謝需求相關。
cristae serve as important platforms for the assembly of protein complexes involved in cellular respiration.
嵴作為細胞呼吸相關蛋白質複合物組裝的重要平台。
abnormal cristae shape is considered a hallmark of mitochondrial dysfunction in many pathological conditions.
異常的嵴形狀被認為是許多病理條件下粒線體功能障礙的特徵。
the composition of cardiolipin molecules is critical for maintaining proper cristae shape and mitochondrial function.
心磷脂分子的組成對於維持正常的嵴形狀和粒線體功能至關重要。
advanced imaging techniques now enable researchers to observe cristae movements in real-time within living cells.
先進的成像技術現在使研究人員能夠在活細胞中實時觀察嵴的運動。
defects in cristae folding mechanisms can trigger apoptotic pathways and cause widespread cellular damage.
嵴摺疊機制的缺陷可能觸發細胞凋亡途徑,並導致廣泛的細胞損傷。
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