Yigang Huang scite author profile

As the crucial powerhouse for cell metabolism and tissue survival, the mitochondrion frequently undergoes morphological or positional changes when responding to various stresses and energy demands. In addition to intracellular changes, mitochondria can also be transferred intercellularly. Besides restoring stressed cells and damaged tissues due to mitochondrial dysfunction, the intercellular mitochondrial transfer also occurs under physiological conditions. In this review, the phenomenon of mitochondrial transfer is described according to its function under both physiological and pathological conditions, including tissue homeostasis, damaged tissue repair, tumor progression, and immunoregulation. Then, the mechanisms that contribute to this process are summarized, such as the trigger factors and transfer routes. Furthermore, various perspectives are explored to better understand the mysteries of cell–cell mitochondrial trafficking. In addition, potential therapeutic strategies for mitochondria-targeted application to rescue tissue damage and degeneration, as well as the inhibition of tumor progression, are discussed.

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Investigation of Correlation between Impact Sensitivities and Nitro Group Charges in Nitro Compounds

Zhang

et al. 2005

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A new method of calculating the Mulliken net charges of the nitro group, Q(NO)()2, to assess impact sensitivities for nitro compounds is established. All calculations including optimizations and Mulliken population and frequency analyses are performed by density functional theory (DFT) and the general gradient approximation (GGA) method in Acceryls' code Dmol(3) with the Beck-LYP hybrid functional and the DNP basis set. As a result, the charges on nitro group can be regarded as a structural parameter to estimate the impact sensitivity on the bond strength, oxygen balance, and molecular electrostatic potential. The compound with more -Q(NO)()2 will be insensitive and gives a large value of impact sensitivity H(50)(). This method considering the molecular structure is applicable for almost all nitro compounds when the C-NO(2), N-NO(2), or O-NO(2) bond is the weakest in the molecule. According to the results in this paper, the compounds with -Q(NO)()2 >0.23e show H(50)()

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Treatment of isolated posterior coronal fracture of the lateral tibial plateau through posterolateral approach for direct exposure and buttress plate fixation

Chang

Zheng

et al. 2009

Arch Orthop Trauma Surg

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Yigang Huang

Intercellular mitochondrial transfer as a means of tissue revitalization

Investigation of Correlation between Impact Sensitivities and Nitro Group Charges in Nitro Compounds

Treatment of isolated posterior coronal fracture of the lateral tibial plateau through posterolateral approach for direct exposure and buttress plate fixation

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