scholarly article | Q13442814 |
P50 | author | Gary Hin-Fai Yam | Q83239912 |
P2093 | author name string | Chi Pui Pang | |
Vishal Jhanji | |||
Mingzhi Zhang | |||
Kwong Wai Choy | |||
Alvin Lerrmann Young | |||
Jodhbir Singh Mehta | |||
Hoi Kin Wong | |||
Jian Huan Chen | |||
Yufei Teng | |||
P2860 | cites work | MicroRNAs: target recognition and regulatory functions | Q24609584 |
miRBase: integrating microRNA annotation and deep-sequencing data | Q24615914 | ||
Inflammatory cytokines regulate microRNA-155 expression in human retinal pigment epithelial cells by activating JAK/STAT pathway | Q24634357 | ||
p53 represses c-Myc through induction of the tumor suppressor miR-145 | Q24644779 | ||
MicroRNA expression profiling of human breast cancer identifies new markers of tumor subtype | Q24646090 | ||
MicroRNA-184 antagonizes microRNA-205 to maintain SHIP2 levels in epithelia | Q24654039 | ||
microRNAs and the immune response | Q24655922 | ||
The endothelial-specific microRNA miR-126 governs vascular integrity and angiogenesis | Q24656947 | ||
B-cell receptor activation induces BIC/miR-155 expression through a conserved AP-1 element | Q24658165 | ||
Disrupting the pairing between let-7 and Hmga2 enhances oncogenic transformation | Q24658400 | ||
Kaposi's sarcoma-associated herpesvirus encodes an ortholog of miR-155 | Q24681400 | ||
The miR-200 family and miR-205 regulate epithelial to mesenchymal transition by targeting ZEB1 and SIP1 | Q27861068 | ||
MicroRNAs: genomics, biogenesis, mechanism, and function | Q27861070 | ||
miR-10 in development and cancer | Q28245877 | ||
MicroRNAs regulating oxidative stress and inflammation in relation to obesity and atherosclerosis. | Q37867326 | ||
MicroRNA-10b induces glioma cell invasion by modulating MMP-14 and uPAR expression via HOXD10. | Q38336556 | ||
A comprehensive analysis of microRNA expression during human keratinocyte differentiation in vitro and in vivo. | Q38505149 | ||
DAPk1 inhibits NF-κB activation through TNF-α and INF-γ-induced apoptosis. | Q39371244 | ||
Stable expression of miR-200c alone is sufficient to regulate TCF8 (ZEB1) and restore E-cadherin expression | Q39841647 | ||
Transcription factor TCF4 maintains the properties of human corneal epithelial stem cells | Q41697916 | ||
Regional distribution of alpha9beta1 integrin within the limbus of the mouse ocular surface | Q42462864 | ||
Cytokeratin 15 can be used to identify the limbal phenotype in normal and diseased ocular surfaces | Q42503265 | ||
Insulin-like growth factor I stimulates tyrosine phosphorylation of p130(Cas), focal adhesion kinase, and paxillin. Role of phosphatidylinositol 3'-kinase and formation of a p130(Cas).Crk complex | Q42826222 | ||
Autocrine stimulation of osteoblast activity by Wnt5a in response to TNF-α in human mesenchymal stem cells. | Q46009707 | ||
Transcriptional mechanisms of WNT5A based on NF-kappaB, Hedgehog, TGFbeta, and Notch signaling cascades | Q47855910 | ||
Modulation of TNF-alpha-induced apoptosis in corneal fibroblasts by transcription factor NF-kappaB. | Q50512223 | ||
Limbal Stem-Cell Therapy and Long-Term Corneal Regeneration | Q60289583 | ||
Reconstruction of damaged corneas by transplantation of autologous limbal epithelial cells | Q73984542 | ||
Locked nucleic acid-based in situ detection of microRNAs in mouse tissue sections | Q80482511 | ||
IFN-alpha enhances TNF-alpha-induced apoptosis through down-regulation of c-Myc protein expression in HL-60 cells | Q81443375 | ||
MicroRNAs of the mammalian eye display distinct and overlapping tissue specificity | Q28273936 | ||
Temporal microRNA expression during in vitro myogenic progenitor cell proliferation and differentiation: regulation of proliferation by miR-682 | Q28293277 | ||
Repression of the miR-143/145 cluster by oncogenic Ras initiates a tumor-promoting feed-forward pathway | Q28587965 | ||
A putative role for microRNA-205 in mammary epithelial cell progenitors | Q28595079 | ||
Ocular surface epithelia contain ABCG2-dependent side population cells exhibiting features associated with stem cells | Q33213763 | ||
A putative role for RHAMM/HMMR as a negative marker of stem cell-containing population of human limbal epithelial cells | Q33324818 | ||
miRNeye: a microRNA expression atlas of the mouse eye. | Q33776125 | ||
Elevated miR-155 promotes inflammation in cystic fibrosis by driving hyperexpression of interleukin-8 | Q33808094 | ||
Anti-angiogenic and anti-inflammatory effects of SERPINA3K on corneal injury | Q33815623 | ||
Suppression of keratin 15 expression by transforming growth factor beta in vitro and by cutaneous injury in vivo | Q33885678 | ||
Regulation of angiogenesis and choroidal neovascularization by members of microRNA-23~27~24 clusters | Q33887848 | ||
MicroRNA-145 regulates human corneal epithelial differentiation | Q33942035 | ||
Comparative analysis of human conjunctival and corneal epithelial gene expression with oligonucleotide microarrays. | Q34019648 | ||
miR-126 inhibits non-small cell lung cancer cells proliferation by targeting EGFL7. | Q34089927 | ||
Limbal stem cell deficiency: concept, aetiology, clinical presentation, diagnosis and management | Q34104676 | ||
Mutant p53 drives invasion in breast tumors through up-regulation of miR-155. | Q34288205 | ||
Stem cells: from epigenetics to microRNAs | Q34417208 | ||
Up-regulation of microRNA-155 in macrophages contributes to increased tumor necrosis factor {alpha} (TNF{alpha}) production via increased mRNA half-life in alcoholic liver disease | Q34489050 | ||
p63 identifies keratinocyte stem cells | Q34707172 | ||
MiR-124 regulates early neurogenesis in the optic vesicle and forebrain, targeting NeuroD1. | Q34779491 | ||
MicroRNA-155 regulates inflammatory cytokine production in tumor-associated macrophages via targeting C/EBPbeta | Q35011103 | ||
Differentially expressed wound healing-related microRNAs in the human diabetic cornea | Q35078390 | ||
Identification of miR-193b targets in breast cancer cells and systems biological analysis of their functional impact | Q35098543 | ||
Wnt/β-catenin signaling regulates proliferation of human cornea epithelial stem/progenitor cells. | Q35220940 | ||
MicroRNA-204/211 alters epithelial physiology | Q35595622 | ||
MicroRNA-31 targets FIH-1 to positively regulate corneal epithelial glycogen metabolism. | Q36117443 | ||
microRNA-31/factor-inhibiting hypoxia-inducible factor 1 nexus regulates keratinocyte differentiation | Q36212869 | ||
Differentiation-related expression of a major 64K corneal keratin in vivo and in culture suggests limbal location of corneal epithelial stem cells | Q36212986 | ||
Transforming growth factor-beta stimulates intestinal epithelial focal adhesion kinase synthesis via Smad- and p38-dependent mechanisms | Q36778233 | ||
The VEGF pathway and the AKT/mTOR/p70S6K1 signalling pathway in human epithelial ovarian cancer | Q37141960 | ||
microRNAs and the immune response | Q37178538 | ||
MicroRNA-184-mediated inhibition of tumour growth in an orthotopic murine model of neuroblastoma | Q37272173 | ||
MicroRNAs as regulators of epithelial-mesenchymal transition. | Q37300965 | ||
Anatomy and physiology of the cornea | Q37844826 | ||
P433 | issue | 3 | |
P921 | main subject | microRNA | Q310899 |
P304 | page(s) | 277-294 | |
P577 | publication date | 2014-12-07 | |
P1433 | published in | Functional and Integrative Genomics | Q15755774 |
P1476 | title | Signature microRNAs in human cornea limbal epithelium | |
P478 | volume | 15 |
Q33799541 | Genome-wide analysis suggests a differential microRNA signature associated with normal and diabetic human corneal limbus |
Q94521319 | MicroRNA Profiling of Highly Enriched Human Corneal Epithelial Stem Cells by Small RNA Sequencing |
Q28081311 | Progress in corneal wound healing |
Q33681018 | Regulation of intraocular pressure by microRNA cluster miR-143/145. |
Q42122913 | Screening of the Seed Region of MIR184 in Keratoconus Patients from Saudi Arabia. |
Q39041180 | Subconjunctival injection of antagomir-21 alleviates corneal neovascularization in a mouse model of alkali-burned cornea |
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