参考文献/References:
[1] 肖 伟. 微小RNA与眼底疾病[J]. 中华实验眼科杂志,
2013,31(9):897-901.
[2] Flynt AS, Lai EC. Biological principles of microRNA-
mediated regulation: shared themes amid diversity [J]. Nat
Rev Genet, 2008, 9(11): 831-842.
[3] Friedman RC, Farh KK, Burge CB, et al. Most mammalian
mRNAs are conserved targets of microRNAs [J]. Genome
Res, 2009, 19(1): 92-105.
[4] Lu X C, Zheng J Y, Tang L J, et al. MiR-133b Promotes
neurite outgrowth by targeting RhoA expression [J]. Cell
Physiol Biochem, 2015, 35(1): 246-258.
[5] Han F, Huo Y, Huang CJ, et al. MicroRNA-30b promotes
axon outgrowth of retinal ganglion cells by inhibiting Sema-
phorin3A expression [J]. Brain Res, 2015, 1611: 65-73.
[6] Li X, Wan X, Chen H, et al. Identification of miR-133b and
RB1CC1 as independent predictors for biochemical recu-
rrence and potential therapeutic targets for prostate cancer
[J]. Clin Cancer Res, 2014, 20(9): 2312-2325.
[7] Xin H, Li Y, Liu Z, et al. MiR-133b promotes neural plasti-
city and functional recovery after treatment of stroke with
multipotent mesenchymal stromal cells in rats via transfer
of exosome-enriched extracellular particles [J]. Stem Cells,
2013, 31(12): 2737-2746.
[8] Fu Q, Hue J, Li S. Nonsteroidal anti-inflammatory drugs
promote axon regeneration via RhoA inhibition [J]. J Neuro-
sci, 2007, 27(15): 4154-4164.
[9] Mellios N, Galdzicka M, Ginns E, et al. Gender-specific
reduction of estrogen-sensitive small RNA, miR-30b, in
subjects with schizophrenia [J]. Schizophr Bull, 2012, 38
(3): 433-443.
[10] Zylbersztejn K, Petkovic M, Burgo A, et al. The vesicular
SNARE Synaptobrevin is required for Semaphorin 3A
axonal repulsion [J]. J Cell Biol, 2012, 196(1): 37-46.
[11] Syed Y A, Hand E, Mobius W, et al. Inhibition of CNS rem-
yelination by the presence of semaphorin 3A [J]. J Neurosci,
2011, 31(10): 3719-3728.
[12] 左 乔,许家军. MicroRNA在神经系统不同部位特异分
布及其在神经损伤再生中的变化和作用[J]. 生理科学进
展,2011,4(4):261-268.
[13] Jiang JJ, Liu CM, Zhang BY, et al. MicroRNA-26a supports
mammalian axon regeneration in vivo by suppressing GSK3
beta expression [J]. Cell Death Dis, 2015, 6: e1865.
[14] Liz MA, Mar FM, Santos TE, et al. Neuronal deletion of
GSK3beta increases microtubule speed in the growth cone
and enhances axon regeneration via CRMP-2 and inde-
pendently of MAP1B and CLASP2 [J]. BMC Biol, 2014, 12:
47.
[15] Liu D, Zheng HY, Luo ZZ, et al. Effect of PP-2A on neurite
outgrowth in neuronal cells [J]. In Vitro Cell Dev Biol Anim,
2010, 46(8): 702-707.
[16] Wanet A, Tacheny A, Arnould T, et al. miR-212/132 expre-
ssion and functions: within and beyond the neuronal com-
partment [J]. Nucleic Acids Res, 2012, 40(11): 4742-4753.
[17] Siegel G, Saba R, Schratt G. microRNAs in neurons: mani-
fold regulatory roles at the synapse [J]. Curr Opin Genet
Dev, 2011, 21(4): 491-497.
[18] Hancock M L, Preitner N, Quan J, et al. MicroRNA-132 is
enriched in developing axons, locally regulates Rasa1
mRNA, and promotes axon extension [J]. J Neurosci, 2014,
34(1): 66-78.
[19] Liu CM, Wang RY, Saijilafu, et al. MicroRNA-138 and
SIRT1 form a mutual negative feedback loop to regulate
mammalian axon regeneration [J]. Genes Dev, 2013, 27(13):
1473-1483.
[20] Guo W, Qian L, Zhang J, et al. Sirt1 overexpression in neu-
rons promotes neurite outgrowth and cell survival through
inhibition of the mTOR signaling [J]. J Neurosci Res, 2011,
89(11): 1723-1736.
[21] 段冉冉,李燕飞,贾延劼. Let-7家族在阿尔茨海默病发病
机制中的作用[J]. 国际生物医学工程杂志,2013,36(5):
307-310.
[22] Thornton JE, Gregory RI. How does Lin28 let-7 control
development and disease [J]? Trends Cell Biol, 2012, 22(9):
474-482.
[23] Zou Y, Chiu H, Zinovyeva A, et al. Developmental decline
in neuronal regeneration by the progressive change of two
intrinsic timers [J]. Science, 2013, 340(6130): 372-376.
[24] Li S, Wang X, Gu Y, et al. Let-7 microRNAs regenerate
peripheral nerve regeneration by targeting nerve growth
factor [J]. Mol Ther, 2015, 23(3): 423-433.
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