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6miRNA-200c-3p is crucial in acute respiratory distress syndrome
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7miRNA-200c-3p is crucial in acute respiratory distress syndrome
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8miR-181a/b downregulation exerts a protective action on mitochondrial disease models
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9MTDH and MAP3K1 are direct targets of apoptosis-regulating miRNAs in colorectal carcinoma
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13T-ALL and thymocytes: a message of noncoding RNAs
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15MicroRNAs: Roles in Regulating Neuroinflammation
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16Multifunctional nanocarrier as a potential micro-RNA delivery vehicle for neuroblastoma treatment
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17Multifunctional nanocarrier as a potential micro-RNA delivery vehicle for neuroblastoma treatment
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Scientific Reports.2017;7(1)245
19MicroRNAs in the prognosis and therapy of colorectal cancer: From bench to bedside
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World Journal of Gastroenterology.2018;24(27)2949
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24Triangle of AKT2, miRNA, and Tumorigenesis in Different Cancers
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26PTBP1 enhances miR-101-guided AGO2 targeting to MCL1 and promotes miR-101-induced apoptosis
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Cell Death & Disease.2018;9(5)87
27The Emerging Role of microRNAs in Aquaporin Regulation
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29Pentafluoropropionic Anhydride Functionalized PAMAM Dendrimer as miRNA Delivery Reagent
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Journal of the Turkish Chemical Society, Section A: Chemistry.2018;14(9)1295
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31I?K-16 decreases miRNA-155 expression and attenuates the human monocyte inflammatory response
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PLOS ONE.2017;12(9)e0183987
32Role of miRNAs in human disease and inborn errors of metabolism
Ana Rivera-Barahona,Belén Pérez,Eva Richard,Lourdes R. Desviat
Journal of Inherited Metabolic Disease.2017;40(4)471
33MicroRNA expression in melanocytes and melanoma cells
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34A novel miR-365-3p/EHF/keratin 16 axis promotes oral squamous cell carcinoma metastasis, cancer stemness and drug resistance via enhancing ß5-integrin/c-met signaling pathway
Wei-Chieh Huang,Te-Hsuan Jang,Shiao-Lin Tung,Tzu-Chen Yen,Shih-Hsuan Chan,Lu-Hai Wang
Journal of Experimental & Clinical Cancer Research.2019;38(1)6
35Biomarkers in Spinal Cord Injury: from Prognosis to Treatment
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36Biomarkers in Spinal Cord Injury: from Prognosis to Treatment
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Molecular Neurobiology.2018;251(8)215
37miRTissue: a web application for the analysis of miRNA-target interactions in human tissues
Antonino Fiannaca,Massimo La Rosa,Laura La Paglia,Alfonso Urso
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38MicroRNA-targeted therapeutics for lung cancer treatment
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Expert Opinion on Drug Discovery.2017;12(2)141
39Regulatory role of microRNA on inflammatory responses of diabetic retinopathy
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40Differentially Expressed microRNAs in MIA PaCa-2 and PANC-1 Pancreas Ductal Adenocarcinoma Cell Lines are Involved in Cancer Stem Cell Regulation
JenaJ Shen,JenaJ Pu,JenaJ Zheng,JenaJ Ma,JenaJ Qin,JenaJ Jiang,JenaJ Li
International Journal of Molecular Sciences.2019;20(18)4473
41Small non-coding RNAs as important players, biomarkers and therapeutic targets in multiple sclerosis: A comprehensive overview
Eliane Piket,Galina Yurevna Zheleznyakova,Lara Kular,Maja Jagodic
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Current Opinion in Rheumatology.2019;31(3)307
43Microvesicle-mediated delivery of miR-1343: impact on markers of fibrosis
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Cell and Tissue Research.2018;371(2)325
44Predictive modeling of miRNA-mediated predisposition to alcohol-related phenotypes in mouse
Pratyaydipta Rudra,Wen J. Shi,Pamela Russell,Brian Vestal,Boris Tabakoff,Paula Hoffman,Katerina Kechris,Laura Saba
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45At the heart of programming: the role of micro-RNAs
B. Siddeek,C. Mauduit,C. Yzydorczyk,M. Benahmed,U. Simeoni
Journal of Developmental Origins of Health and Disease.2018;9(6)615
46Cytokine Targeting by miRNAs in Autoimmune Diseases
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47Cytokine Targeting by miRNAs in Autoimmune Diseases
Rotem Maoz,Benjamin P. Garfinkel,Hermona Soreq
Frontiers in Immunology.2017;978(6)337
48TGF-ß induces miR-100 and miR-125b but blocks let-7a through LIN28B controlling PDAC progression
Silvia Ottaviani,Justin Stebbing,Adam E. Frampton,Sladjana Zagorac,Jonathan Krell,Alexander de Giorgio,Sara M. Trabulo,Van T. M. Nguyen,Luca Magnani,Hugang Feng,Elisa Giovannetti,Niccola Funel,Thomas M. Gress,Long R. Jiao,Ylenia Lombardo,Nicholas R. Lemoine,Christopher Heeschen,Leandro Castellano
Nature Communications.2018;9(1)337
49Dgcr8 knockout approaches to understand microRNA functions in vitro and in vivo
Wen-Ting Guo,Yangming Wang
Cellular and Molecular Life Sciences.2019;76(9)1697
50Dgcr8 knockout approaches to understand microRNA functions in vitro and in vivo
Dongying Li,William H. Tolleson,Dianke Yu,Si Chen,Lei Guo,Wenming Xiao,Weida Tong,Baitang Ning
Cellular and Molecular Life Sciences.2019;76(9)129
51A Circulating microRNA Signature Predicts Age-Based Development of Lymphoma
Afshin Beheshti,Charles Vanderburg,J. Tyson McDonald,Charusheila Ramkumar,Tatenda Kadungure,Hong Zhang,Ronald B. Gartenhaus,Andrew M. Evens,Jianjun Zhao
PLOS ONE.2017;12(1)e0170521
52Muscle miRNAome shows suppression of chronic inflammatory miRNAs with both prednisone and vamorolone
Alyson A. Fiorillo,Christopher B. Tully,Jesse M. Damsker,Kanneboyina Nagaraju,Eric P. Hoffman,Christopher R. Heier
Physiological Genomics.2018;50(9)735
53Role of Non-Coding RNAs in the Etiology of Bladder Cancer
Caterina Gulěa,Stefano Baldassarra,Fabrizio Signore,Giuliano Rigon,Valerio Pizzuti,Marco Gaffi,Vito Briganti,Alessandro Porrello,Roberto Piergentili
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Sagarika Biswas
Current Drug Therapy.2019;14(1)85
55Calcium-Binding Nanoparticles for Vascular Disease
Deborah D. Chin,Sampreeti Chowdhuri,Eun Ji Chung
Regenerative Engineering and Translational Medicine.2019;5(1)74
56Novel Treatments for Polycystic Kidney Disease
Ameya Patil,William E. Sweeney,Cynthia G. Pan,Ellis D. Avner,Meral Gunay-Aygun
Translational Science of Rare Diseases.2019;4(1-2)77
57The Purinergic System as a Pharmacological Target for the Treatment of Immune-Mediated Inflammatory Diseases
Luca Antonioli,Corrado Blandizzi,Pál Pacher,György Haskó,Clive Page
Pharmacological Reviews.2019;71(3)345
58miR-497 accelerates oxidized low-density lipoprotein-induced lipid accumulation in macrophages by repressing the expression of apelin
Junfeng Cui,Zhong Ren,Wenshuang Zou,Yanling Jiang
Cell Biology International.2017;41(9)1012
59Systems genetics identifies a co-regulated module of liver microRNAs associated with plasma LDL cholesterol in murine diet-induced dyslipidemia
Alisha R. Coffey,Tangi L. Smallwood,Jody Albright,Kunjie Hua,Matt Kanke,Daniel Pomp,Brian J. Bennett,Praveen Sethupathy
Physiological Genomics.2017;49(11)618
60Liquid biopsy in mice bearing colorectal carcinoma xenografts: gateways regulating the levels of circulating tumor DNA (ctDNA) and miRNA (ctmiRNA)
Jessica Gasparello,Matteo Allegretti,Elisa Tremante,Enrica Fabbri,Carla Azzurra Amoreo,Paolo Romania,Elisa Melucci,Katia Messana,Monica Borgatti,Patrizio Giacomini,Roberto Gambari,Alessia Finotti
Journal of Experimental & Clinical Cancer Research.2018;37(1)618
61miRNAs regulate the HIF switch during hypoxia: a novel therapeutic target
Marcin Serocki,Sylwia Bartoszewska,Anna Janaszak-Jasiecka,Renata J. Ochocka,James F. Collawn,Rafal Bartoszewski
62Therapeutic Resistance in Acute Myeloid Leukemia: The Role of Non-Coding RNAs
Armin Zebisch,Stefan Hatzl,Martin Pichler,Albert Wölfler,Heinz Sill
International Journal of Molecular Sciences.2016;17(12)2080
63Hypoxia in CNS Pathologies: Emerging Role of miRNA-Based Neurotherapeutics and Yoga Based Alternative Therapies
Gillipsie Minhas,Deepali Mathur,Balakrishnan Ragavendrasamy,Neel K. Sharma,Viraaj Paanu,Akshay Anand
Frontiers in Neuroscience.2017;11(12)2080
64Dysregulated miRNAs and their pathogenic implications for the neurometabolic disease propionic acidemia
Ana Rivera-Barahona,Alejandro Fulgencio-Covián,Celia Pérez-Cerdá,Ricardo Ramos,Michael A. Barry,Magdalena Ugarte,Belén Pérez,Eva Richard,Lourdes R Desviat
Scientific Reports.2017;7(1)2080
65MicroRNA-based therapeutics in central nervous system injuries
Ping Sun,Da Zhi Liu,Glen C Jickling,Frank R Sharp,Ke-Jie Yin
Journal of Cerebral Blood Flow & Metabolism.2018;38(7)1125
66Role of microRNAs in obesity and obesity-related diseases
Giuseppe Iacomino,Alfonso Siani
Genes & Nutrition.2017;12(1)1125
67Unique interstitial miRNA signature drives fibrosis in a murine model of autosomal dominant polycystic kidney disease
Ameya Patil,William E Sweeney Jr,Cynthia G Pan,Ellis D Avner
World Journal of Nephrology.2018;7(5)108
68Dysregulated Expression of microRNA-21 and Disease-Related Genes in Human Patients and in a Mouse Model of Alport Syndrome
Jifan Guo,Wenping Song,Joseph Boulanger,Ethan Y. Xu,Fang Wang,Yanqin Zhang,Qun He,Suxia Wang,Li Yang,Cynthia Pryce,Lucy Phillips,Deidre MacKenna,Ekkehard Leberer,Oxana Ibraghimov-Beskrovnaya,Jie Ding,Shiguang Liu
Human Gene Therapy.2019;30(7)865
69Inflammasome Priming in Sterile Inflammatory Disease
Meghana N. Patel,Richard G. Carroll,Silvia Galván-Peńa,Evanna L. Mills,Robin Olden,Martha Triantafilou,Amaya I. Wolf,Clare E. Bryant,Kathy Triantafilou,Seth L. Masters
Trends in Molecular Medicine.2017;23(2)165
70Prognostic Value of MicroRNAs in Coronary Artery Diseases: A Meta-Analysis
Ji Suk Kim,Kyoungjune Pak,Tae Sik Goh,Dae Cheon Jeong,Myoung-Eun Han,Jihyun Kim,Sae-Ock Oh,Chi Dae Kim,Yun Hak Kim
Yonsei Medical Journal.2018;59(4)495
71Expression Analysis of MicroRNA-21 and MicroRNA-122 in Hepatocellular Carcinoma
Dipu Bharali,Basu D. Banerjee,Mausumi Bharadwaj,Syed A. Husain,Premashis Kar
Journal of Clinical and Experimental Hepatology.2019;9(3)294
72The MicroRNA-326: Autoimmune diseases, diagnostic biomarker, and therapeutic target
Golamreza Jadideslam,Khalil Ansarin,Ebrahim Sakhinia,Shahriar Alipour,Farhad Pouremamali,Alireza Khabbazi
Journal of Cellular Physiology.2018;233(12)9209
73Encapsulated miR-200c and Nkx2.1 in a nuclear/mitochondria transcriptional regulatory network of non-metastatic and metastatic lung cancer cells
Olga D’Almeida,Omar Mothar,Esther Apraku Bondzie,Yolande Lieumo,Laure Tagne,Sumeet Gupta,Thomas Volkert,Stuart Levine,Jean-Bosco Tagne
BMC Cancer.2019;19(1)9209
74Encapsulated miR-200c and Nkx2.1 in a nuclear/mitochondria transcriptional regulatory network of non-metastatic and metastatic lung cancer cells
Indranil Mondal,Shivani Sharma,Ritu Kulshreshtha
BMC Cancer.2019;19(1)261
75The silent healer: miR-205-5p up-regulation inhibits epithelial to mesenchymal transition in colon cancer cells by indirectly up-regulating E-cadherin expression
Diana Gulei,Lorand Magdo,Ancuta Jurj,Lajos Raduly,Roxana Cojocneanu-Petric,Alin Moldovan,Cristian Moldovan,Adrian Florea,Sergiu Pasca,Laura-Ancuta Pop,Vlad Moisoiu,Liviuta Budisan,Cecilia Pop-Bica,Cristina Ciocan,Rares Buiga,Mihai-Stefan Muresan,Rares Stiufiuc,Calin Ionescu,Ioana Berindan-Neagoe
Cell Death & Disease.2018;9(2)261
76TGFß as a therapeutic target in cystic fibrosis
Elizabeth L. Kramer,John P. Clancy
Expert Opinion on Therapeutic Targets.2018;22(2)177
77Therapeutic applications of zebrafish (Danio rerio) miRNAs linked with human diseases: A prospective review
Manojit Bhattacharya,Soumendu Ghosh,Ramesh Chandra Malick,Bidhan Chandra Patra,Basanta Kumar Das
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Rui Suzuki,Vishwa Jeet Amatya,Kei Kushitani,Yuichiro Kai,Takahiro Kambara,Yukio Takeshima
Frontiers in Oncology.2018;8(2)202
79miR-182 and miR-183 Promote Cell Proliferation and Invasion by Targeting FOXO1 in Mesothelioma
Irene Mencía Castańo,Rosanne M. Raftery,Caroline M. Curtin,Johannes Grillari,Heinz Redl,Fergal J. O’Brien
Frontiers in Oncology.2019;8(2)1
80miR-182 and miR-183 Promote Cell Proliferation and Invasion by Targeting FOXO1 in Mesothelioma
Axel Haverich,Erin Colleen Boyle
Frontiers in Oncology.2019;8(2)97
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Chunyu Cao,Yifei Ding,Xiangjun Kong,Guangde Feng,Wei Xiang,Long Chen,Fang Yang,Ke Zhang,Mingxing Chu,Pingqing Wang,Baoyun Zhang
Molecular and Cellular Neuroscience.2018;88(2)130
82MicroRNA-135a regulates NHE9 to inhibit proliferation and migration of glioblastoma cells
Daniela M. Gomez Zubieta,Mohamed A. Hamood,Rami Beydoun,Ashley E. Pall,Kalyan C. Kondapalli
Cell Communication and Signaling.2017;15(1)130
83miRNAs and their roles in KSHV pathogenesis
Hosni A.M. Hussein,Mohammad A. Alfhili,Pranaya Pakala,Sandra Simon,Jaffer Hussain,James A. McCubrey,Shaw M. Akula
Virus Research.2019;266(1)15
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Ageing Research Reviews.2019;55(6)100957
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María Antonia Lizarbe,Jorge Calle-Espinosa,Eva Fernández-Lizarbe,Sara Fernández-Lizarbe,Miguel Ángel Robles,Nieves Olmo,Javier Turnay
BioMed Research International.2017;2017(6)1
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Frontiers in Genetics.2018;9(6)1
89Advances in the delivery of RNA therapeutics: from concept to clinical reality
James C. Kaczmarek,Piotr S. Kowalski,Daniel G. Anderson
Genome Medicine.2017;9(1)1
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Oleta A. Sandiford,Caitlyn A. Moore,Jun Du,Mathieu Boulad,Marina Gergues,Hussam Eltouky,Pranela Rameshwar
Genome Medicine.2018;1056(1)137
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Yngve Nordby,Elin Richardsen,Nora Ness,Tom Donnem,Hiten R. H. Patel,Lill-Tove Busund,Roy M. Bremnes,Sigve Andersen
Scientific Reports.2017;7(1)137
92An innovative paradigm of methods in microRNAs detection: highlighting DNAzymes, the illuminators
Mojdeh Mahdiannasser,Zahra Karami
Biosensors and Bioelectronics.2018;107(1)123
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Nóra Judit Béres,Zoltán Kiss,Katalin E. Müller,Áron Cseh,Apor Veres-Székely,Rita Lippai,Rita Benko,Árpád Bartha,Szabolcs Heininger,Ádám Vannay,Erna Sziksz,Gábor Veres,Eszter M. Horváth
Scandinavian Journal of Gastroenterology.2018;53(9)1066
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Sabrina D. Clark,Wenping Song,Rachel Cianciolo,George Lees,Mary Nabity,Shiguang Liu
Veterinary Pathology.2019;56(1)93
95Therapeutic microRNAs in human cancer
Gizem Ors-Kumoglu,Sultan Gulce-Iz,Cigir Biray-Avci
96Excerpts from the 1st international NTNU symposium on current and future clinical biomarkers of cancer: innovation and implementation, June 16th and 17th 2016, Trondheim, Norway
Ana I. Robles,Karina Standahl Olsen,Dana W.T. Tsui,Vassilis Georgoulias,Jenette Creaney,Katalin Dobra,Mogens Vyberg,Nagahiro Minato,Robert A. Anders,Anne-Lise Břrresen-Dale,Jianwei Zhou,Pĺl Sćtrom,Boye Schnack Nielsen,Michaela B. Kirschner,Hans E. Krokan,Vassiliki Papadimitrakopoulou,Ioannis Tsamardinos,Oluf D. Rře
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97Downregulated microRNAs in the colorectal cancer: diagnostic and therapeutic perspectives
Rosa Hernández,Ester Sánchez-Jiménez,Consolación Melguizo,Jose Prados,Ana Rosa Rama
BMB Reports.2018;51(11)563
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Cory V. Gerlach,Vishal S. Vaidya
Archives of Toxicology.2017;91(8)2781
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Rebecca Kohnken,Betina McNeil,Jing Wen,Kathleen McConnell,Leah Grinshpun,Ashleigh Keiter,Luxi Chen,Basem William,Pierluigi Porcu,Anjali Mishra
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Viorel Simion,Julien Sobilo,Rudy Clemoncon,Sharuja Natkunarajah,Safia Ezzine,Florence Abdallah,Stephanie Lerondel,Chantal Pichon,Patrick Baril,Juri G. Gelovani
PLOS ONE.2017;12(5)e0177492
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Wei-Chun Chen,Chih-Ku Wei,Jin-Ching Lee
Journal of Viral Hepatitis.2019;26(6)655
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Klaudia A. Kaczmarek,Rachel L. Clifford,Alan J. Knox
103The roles of non-coding RNAs in cardiac regenerative medicine
Oi Kuan Choong,Desy S. Lee,Chen-Yun Chen,Patrick C.H. Hsieh
Non-coding RNA Research.2017;2(2)100
104A cross-cancer metastasis signature in the microRNA–mRNA axis of paired tissue samples
Samuel C. Lee,Alistair Quinn,Thin Nguyen,Svetha Venkatesh,Thomas P. Quinn
Molecular Biology Reports.2019;2(2)100
105Diabetic nephropathy: The regulatory interplay between epigenetics and microRNAs
Himanshu Sankrityayan,Yogesh A. Kulkarni,Anil Bhanudas Gaikwad
Pharmacological Research.2019;141(2)574
106Adipocyte metabolism is improved by TNF receptor-targeting small RNAs identified from dried nuts
Katia Aquilano,Veronica Ceci,Angelo Gismondi,Susanna De Stefano,Federico Iacovelli,Raffaella Faraonio,Gabriele Di Marco,Noemi Poerio,Antonella Minutolo,Giuseppina Minopoli,Antonia Marcone,Maurizio Fraziano,Flavia Tortolici,Simona Sennato,Stefano Casciardi,Marina Potestŕ,Roberta Bernardini,Maurizio Mattei,Mattia Falconi,Carla Montesano,Stefano Rufini,Antonella Canini,Daniele Lettieri-Barbato
Communications Biology.2019;2(1)574
107Transcriptomic studies provide insights into the tumor suppressive role of miR-146a-5p in non-small cell lung cancer (NSCLC) cells
Joseph R. Iacona,Nicholas J. Monteleone,Alexander D. Lemenze,Ashley L. Cornett,Carol S. Lutz
RNA Biology.2019;2(1)1
108Copy Number Variants in miR-138 as a Potential Risk Factor for Early-Onset Alzheimer’s Disease
Emmanuelle Boscher,Thomas Husson,Olivier Quenez,Annie Laquerričre,Florent Marguet,Kevin Cassinari,David Wallon,Olivier Martinaud,Camille Charbonnier,Gaël Nicolas,Jean-François Deleuze,Anne Boland,Mark Lathrop,Thierry Frébourg,Dominique Campion,Sébastien S. Hébert,Anne Rovelet-Lecrux
Journal of Alzheimer's Disease.2019;68(3)1243
109Perspectives on the physiological roles of microRNAs in immune-metabolism: Where are we now?
Shuai Jiang
Cancer Letters.2018;426(3)1
110MicroRNA-29b Overexpression Decreases Extracellular Matrix mRNA and Protein Production in Human Corneal Endothelial Cells
Tetsuya Toyono,Tomohiko Usui,Guadalupe Villarreal,Laura Kallay,Mario Matthaei,Lucas M. M. Vianna,Angela Y. Zhu,Masahiko Kuroda,Shiro Amano,Albert S. Jun
111Exosome-Mediated Small RNA Delivery: A Novel Therapeutic Approach for Inflammatory Lung Responses
Duo Zhang,Heedoo Lee,Xiaoyun Wang,Ashish Rai,Michael Groot,Yang Jin
Molecular Therapy.2018;26(9)2119
112Combined Therapy in Cancer: The Non-coding Approach
Diana Gulei,Ioana Berindan-Neagoe
Molecular Therapy - Nucleic Acids.2018;12(9)787
113MiR-145 ameliorates neuropathic pain via inhibiting inflammatory responses and mTOR signaling pathway by targeting Akt3 in a rat model
Jinshan Shi,Ke Jiang,Zhaoduan Li
Neuroscience Research.2018;134(9)10
114MicroRNA-193a and taxol combination: A new strategy for treatment of colorectal cancer
Maryam Hejazi,Elham Baghbani,Mohammad Amini,Tayebeh Rezaei,Ayuob Aghanejad,Jafar Mosafer,Ahad Mokhtarzadeh,Behzad Baradaran
Journal of Cellular Biochemistry.2019;134(9)10
115MicroRNA-193a and taxol combination: A new strategy for treatment of colorectal cancer
Massimo Papale,Francesca Conserva,Paola Pontrelli,Loreto Gesualdo
Journal of Cellular Biochemistry.2019;134(9)487
116The Potential of MicroRNAs as Novel Biomarkers for Transplant Rejection
Matthias Hamdorf,Satoru Kawakita,Matthew Everly
Journal of Immunology Research.2017;2017(9)1
117MicroRNA-124 and microRNA-146a both attenuate persistent neuropathic pain induced by morphine in male rats
Peter M. Grace,Keith A. Strand,Erika L. Galer,Steven F. Maier,Linda R. Watkins
Brain Research.2018;1692(9)9
118New Dancing Couple: PD-L1 and MicroRNA
A. Grenda,P. Krawczyk
Scandinavian Journal of Immunology.2017;86(3)130
119A Concise Review of MicroRNA Exploring the Insights of MicroRNA Regulations in Bacterial, Viral and Metabolic Diseases
Ahsan Naveed,Sajjad ur-Rahman,Sabahat Abdullah,Muhammad Ammar Naveed
Molecular Biotechnology.2017;59(11-12)518
120MiR-138-5p targeting LIMK1 suppresses breast cancer cell proliferation and motility
Dengfeng Li,Hongming Song,Tianqi Wu,Dan Xie,Jiashu Hu,Junyong Zhao,Lin Fang
RSC Advances.2017;7(82)52030
121Efferocytosis and Atherosclerosis: Regulation of Phagocyte Function by MicroRNAs
Amir Tajbakhsh,Vanessa Bianconi,Matteo Pirro,Seyed Mohammad Gheibi Hayat,Thomas P. Johnston,Amirhossein Sahebkar
Trends in Endocrinology & Metabolism.2019;30(9)672
122Efferocytosis and Atherosclerosis: Regulation of Phagocyte Function by MicroRNAs
Mathieu Neault,Florence Couteau,Éric Bonneau,Vincent De Guire,Frédérick A. Mallette
Trends in Endocrinology & Metabolism.2017;334(9)27
123Efferocytosis and Atherosclerosis: Regulation of Phagocyte Function by MicroRNAs
Parveen Bansal,Ashish Kumar,Sudhir Chandna,Malika Arora,Renu Bansal
Trends in Endocrinology & Metabolism.2018;1823(9)185
124Analysis of microRNA and modified oligonucleotides with the use of ultra high performance liquid chromatography coupled with mass spectrometry
Sylwia Studzinska,Boguslaw Buszewski
Journal of Chromatography A.2018;1554(9)71
125miR-146a targeted to splenic macrophages prevents sepsis-induced multiple organ injury
Yoshio Funahashi,Noritoshi Kato,Tomohiro Masuda,Fumitoshi Nishio,Hiroki Kitai,Takuji Ishimoto,Tomoki Kosugi,Naotake Tsuboi,Naoyuki Matsuda,Shoichi Maruyama,Kenji Kadomatsu
Laboratory Investigation.2019;99(8)1130
126miR-146a-5p: Expression, regulation, and functions in cancer
Joseph R. Iacona,Carol S. Lutz
Wiley Interdisciplinary Reviews: RNA.2019;99(8)e1533
127Screening of microRNAs controlling body fat in Drosophila melanogaster and identification of miR-969 and its target, Gr47b
William Redmond,Dylan Allen,M. Christian Elledge,Russell Arellanes,Lucille Redmond,Jared Yeahquo,Shuyin Zhang,Morgan Youngblood,Austin Reiner,Jin Seo,Gregg Roman
PLOS ONE.2019;14(7)e0219707
128MicroRNA-467g inhibits new bone regeneration by targeting Ihh/Runx-2 signaling
Jyoti Kureel,Aijaz A John,Manisha Dixit,Divya Singh
The International Journal of Biochemistry & Cell Biology.2017;85(7)35
129MicroRNA-467g inhibits new bone regeneration by targeting Ihh/Runx-2 signaling
Brijesh Pandey,Akhilesh K. Singh,Satarudra P. Singh
The International Journal of Biochemistry & Cell Biology.2019;85(7)469
130MicroRNA-467g inhibits new bone regeneration by targeting Ihh/Runx-2 signaling
Ovidiu Balacescu,Simona Visan,Oana Baldasici,Loredana Balacescu,Catalin Vlad,Patriciu Achimas-Cadariu
The International Journal of Biochemistry & Cell Biology.2018;85(7)469
131miR-15a/miR-16 induces mitochondrial dependent apoptosis in breast cancer cells by suppressing oncogene BMI1
Nibedita Patel,Koteswara Rao Garikapati,M. Janaki Ramaiah,Kavi Kishor Polavarapu,Utpal Bhadra,Manika Pal Bhadra
Life Sciences.2016;164(7)60
132MicroRNAs regulate survival in oxygen-deprived environments
Simon G. English,Hanane Hadj-Moussa,Kenneth B. Storey
The Journal of Experimental Biology.2018;221(23)jeb190579
133MicroRNAs as future therapeutic targets in COPD?
Ken R. Bracke,Pieter Mestdagh
European Respiratory Journal.2017;49(5)1700431
134miR-30a-5p inhibition promotes interaction of Fas+ endothelial cells and FasL+ microglia to decrease pathological neovascularization and promote physiological angiogenesis
Salome Murinello,Yoshihiko Usui,Susumu Sakimoto,Maki Kitano,Edith Aguilar,H. Maura Friedlander,Amelia Schricker,Carli Wittgrove,Yoshihiro Wakabayashi,Michael I. Dorrell,Peter D. Westenskow,Martin Friedlander

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