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1Membrane permeabilizing amphiphilic peptide delivers recombinant transcription factor and CRISPR-Cas9/Cpf1 ribonucleoproteins in hard-to-modify cells
Thomas Del’Guidice,Jean-Pascal Lepetit-Stoffaes,Louis-Jean Bordeleau,Joannie Roberge,Vanessa Théberge,Coraline Lauvaux,Xavier Barbeau,Jessica Trottier,Vibhuti Dave,Denis-Claude Roy,Bruno Gaillet,Alain Garnier,David Guay,Alfred S Lewin
PLOS ONE.2018;13(4)e0195558
[DOI]
2Modified gelatin nanoparticles for gene delivery
Osama Madkhali,George Mekhail,Shawn D. Wettig
International Journal of Pharmaceutics.2019;554(4)224
[DOI]
3A self-assembling amphiphilic peptide nanoparticle for the efficient entrapment of DNA cargoes up to 100 nucleotides in length
Shabnam Tarvirdipour,Cora-Ann Schoenenberger,Yaakov Benenson,Cornelia G. Palivan
Soft Matter.2020;16(6)1678
[DOI]
4Coordinative Amphiphiles as Tunable siRNA Transporters
Jin Bum Kim,Yeong Mi Lee,Jooyeon Ryu,Eunji Lee,Won Jong Kim,Gyochang Keum,Eun-Kyoung Bang
Bioconjugate Chemistry.2016;27(8)1850
[DOI]
5Contributions of VPS35 Mutations to Parkinson’s Disease
Abir A. Rahman,Brad E. Morrison
Neuroscience.2019;401(8)1
[DOI]
6Attenuate Newcastle disease virus by codon modification of the glycoproteins and phosphoprotein genes
Weijia Wang,Xing Cheng,Paul J. Buske,JoAnn A. Suzich,Hong Jin
Virology.2019;528(8)144
[DOI]
7Structure-activity relationship of serotonin derived tocopherol lipids
Venkanna Muripiti,Thasneem Yoosuf Mujahid,Venkata Harsha Vardhan Boddeda,Shrish Tiwari,Srujan Kumar Marepally,Srilakshmi V. Patri,Vijaya Gopal
International Journal of Pharmaceutics.2019;554(8)134
[DOI]
8Vascular Repair by Circumferential Cell Therapy Using Magnetic Nanoparticles and Tailored Magnets
Sarah Vosen,Sarah Rieck,Alexandra Heidsieck,Olga Mykhaylyk,Katrin Zimmermann,Wilhelm Bloch,Dietmar Eberbeck,Christian Plank,Bernhard Gleich,Alexander Pfeifer,Bernd K. Fleischmann,Daniela Wenzel
ACS Nano.2016;10(1)369
[DOI]
9An Electrostatically Self-Assembled Ternary Nanocomplex as a Non-Viral Vector for the Delivery of Plasmid DNA into Human Adipose-Derived Stem Cells
Sun-Hee Cho,Young-Woock Noh,Mi Cho,Yong Lim
Molecules.2016;21(5)572
[DOI]
10Modulating angiogenesis with integrin-targeted nanomedicines
Aroa Duro-Castano,Elena Gallon,Caitlin Decker,María J. Vicent
Advanced Drug Delivery Reviews.2017;119(5)101
[DOI]
11Block copolymer conjugated Au-coated Fe3O4 nanoparticles as vectors for enhancing colloidal stability and cellular uptake
Junbo Li,Sheng Zou,Jiayu Gao,Ju Liang,Huiyun Zhou,Lijuan Liang,Wenlan Wu
Journal of Nanobiotechnology.2017;15(1)101
[DOI]
12Improved SiRNA Loading of Cationic Nanohydrogel Particles by Variation of Crosslinking Density
Nadine Leber,Rudolf Zentel
Macromolecular Chemistry and Physics.2020;221(2)1900298
[DOI]
13Integrated Electrowetting Nanoinjector for Single Cell Transfection
Elaheh Shekaramiz,Ganeshkumar Varadarajalu,Philip J. Day,H. Kumar Wickramasinghe
Scientific Reports.2016;6(1)1900298
[DOI]
14Green Transfection: Cationic Lipid Nanocarrier System Derivatized from Vegetable Fat, Palmstearin Enhances Nucleic Acid Transfections
Priya Dharmalingam,Hari Krishna R. Rachamalla,Brijesh Lohchania,Bhanuprasad Bandlamudi,Saravanabhavan Thangavel,Mohankumar K. Murugesan,Rajkumar Banerjee,Arabinda Chaudhuri,Chandrashekhar Voshavar,Srujan Marepally
ACS Omega.2017;2(11)7892
[DOI]
15Lipid-Based DNA Therapeutics: Hallmarks of Non-Viral Gene Delivery
Jonas Buck,Philip Grossen,Pieter R. Cullis,Jörg Huwyler,Dominik Witzigmann
ACS Nano.2019;13(4)3754
[DOI]
16Conjugates of small targeting molecules to non-viral vectors for the mediation of siRNA
Defu Zhi,Yinan Zhao,Shaohui Cui,Huiying Chen,Shubiao Zhang
Acta Biomaterialia.2016;36(4)21
[DOI]
17Significance of stem cell marker Nanog gene in the diagnosis and prognosis of lung cancer
Zeng Liu,Jing Zhang,Honggang Kang,Guiming Sun,Baozhong Wang,Yanwen Wang,Mengxiang Yang
Oncology Letters.2016;12(4)2507
[DOI]
18Integrated microfluidic devices for the synthesis of nanoscale liposomes and lipoplexes
Tiago A. Balbino,Juliana M. Serafin,Allan Radaic,Marcelo B. de Jesus,Lucimara G. de la Torre
Colloids and Surfaces B: Biointerfaces.2017;152(4)406
[DOI]
19A siRNA-induced peptide co-assembly system as a peptide-based siRNA nanocarrier for cancer therapy
Wenjun Li,Dongyuan Wang,Xiaodong Shi,Jingxu Li,Yue Ma,Yanding Wang,Tingting Li,Jianing Zhang,Rongtong Zhao,Zhiqiang Yu,Feng Yin,Zigang Li
Materials Horizons.2018;5(4)745
[DOI]
20Anticancer effect of gene/peptide co-delivery system using transferrin-grafted LMWSC
Gyeong-Won Jeong,Seong-Cheol Park,Changyong Choi,Joung-Pyo Nam,Tae-Hun Kim,Soo-Kyung Choi,Jun-Kyu Park,Jae-Woon Nah
International Journal of Pharmaceutics.2015;488(1-2)165
[DOI]
21Chitosan in Non-Viral Gene Delivery: Role of Structure, Characterization Methods, and Insights in Cancer and Rare Diseases Therapies
Beatriz Santos-Carballal,Elena Fernández Fernández,Francisco Goycoolea
Polymers.2018;10(4)444
[DOI]
22Gene therapy in pancreatic cancer
Si-Xue Liu
World Journal of Gastroenterology.2014;20(37)13343
[DOI]
23Recent advances on extracellular vesicles in therapeutic delivery: Challenges, solutions, and opportunities
Mei Lu,Haonan Xing,Zhen Yang,Yanping Sun,Tianzhi Yang,Xiaoyun Zhao,Cuifang Cai,Dongkai Wang,Pingtian Ding
European Journal of Pharmaceutics and Biopharmaceutics.2017;119(37)381
[DOI]
24Acceleration of bone regeneration in bioactive glass/gelatin composite scaffolds seeded with bone marrow-derived mesenchymal stem cells over-expressing bone morphogenetic protein-7
Saeid Kargozar,Seyed Jafar Hashemian,Mansooreh Soleimani,Peiman Brouki Milan,Mohammad Askari,Vahid Khalaj,Ali Samadikuchaksaraie,Sepideh Hamzehlou,Amir Reza Katebi,Noorahmad Latifi,Masoud Mozafari,Francesco Baino
Materials Science and Engineering: C.2017;75(37)688
[DOI]
25Acceleration of bone regeneration in bioactive glass/gelatin composite scaffolds seeded with bone marrow-derived mesenchymal stem cells over-expressing bone morphogenetic protein-7
M.N. Bouchlaka,P. Hematti,C.M. Capitini
Materials Science and Engineering: C.2017;75(37)551
[DOI]
26Comparison of random and gradient amino functionalized poly(2-oxazoline)s: Can the transfection efficiency be tuned by the macromolecular structure?
David Hertz,Meike N. Leiske,Thomas Wloka,Anja Traeger,Matthias Hartlieb,Michael M. Kessels,Stephanie Schubert,Britta Qualmann,Ulrich S. Schubert
Journal of Polymer Science Part A: Polymer Chemistry.2018;56(12)1210
[DOI]
27Telomere Gene Therapy: Polarizing Therapeutic Goals for Treatment of Various Diseases
JinWoo Hong,Chae-Ok Yun
Cells.2019;8(5)392
[DOI]
28Telomere Gene Therapy: Polarizing Therapeutic Goals for Treatment of Various Diseases
Babak Arjmand,Bagher Larijani,Motahareh Sheikh Hosseini,Moloud Payab,Kambiz Gilany,Parisa Goodarzi,Peyvand Parhizkar Roudsari,Mobina Amanollahi Baharvand,Negin sadat Hoseini Mohammadi
Cells.2019;8(5)392
[DOI]
29Osteogenic Effects of VEGF-Overexpressed Human Adipose-Derived Stem Cells with Whitlockite Reinforced Cryogel for Bone Regeneration
Inseon Kim,Seunghun S. Lee,Seung Hyun L. Kim,Sunghoon Bae,Hoyon Lee,Nathaniel S. Hwang
Macromolecular Bioscience.2019;19(5)1800460
[DOI]
30Gene therapy and type 1 diabetes mellitus
Dinesh Kumar Chellappan,Nandhini S. Sivam,Kai Xiang Teoh,Wai Pan Leong,Tai Zhen Fui,Kien Chooi,Nico Khoo,Fam Jia Yi,Jestin Chellian,Lim Lay Cheng,Rajiv Dahiya,Gaurav Gupta,Gautam Singhvi,Srinivas Nammi,Philip Michael Hansbro,Kamal Dua
Biomedicine & Pharmacotherapy.2018;108(5)1188
[DOI]
31Gene therapy and type 1 diabetes mellitus
Grace Cole,Nicholas J. Dunne,Helen O. McCarthy
Biomedicine & Pharmacotherapy.2018;108(5)129
[DOI]
32Harnessing the Potential of Stem Cells for Disease Modeling: Progress and Promises
Chiara Argentati,Ilaria Tortorella,Martina Bazzucchi,Francesco Morena,Sabata Martino
Journal of Personalized Medicine.2020;10(1)8
[DOI]
33Micro and nanotechnologies in heart valve tissue engineering
Anwarul Hasan,John Saliba,Hassan Pezeshgi Modarres,Ahmed Bakhaty,Amir Nasajpour,Mohammad R.K. Mofrad,Amir Sanati-Nezhad
Biomaterials.2016;103(1)278
[DOI]
34Bioengineered liposome–scaffold composites as therapeutic delivery systems
Claudia Zylberberg,Sandro Matosevic
Therapeutic Delivery.2017;8(6)425
[DOI]
35MicroRNAs Regulate Cytokine Responses in Gingival Epithelial Cells
Steven C. Y. Chen,Christos Constantinides,Moritz Kebschull,Panos N. Papapanou,B. A. McCormick
Infection and Immunity.2016;84(12)3282
[DOI]
36Advances in Targeted Gene Delivery
Anjuman A. Begum,Istvan Toth,Waleed M. Hussein,Peter M. Moyle
Current Drug Delivery.2019;16(7)588
[DOI]
37Human umbilical cord blood derived mesenchymal stem cells were differentiated into pancreatic endocrine cell by Pdx-1 electrotransfer
Phuoc Thi-My Nguyen,Anh Thai-Quynh Nguyen,Nhung Thi Nguyen,Nguyet Thi-Minh Nguyen,Thu Thi Duong,Nhung Hai Truong,Ngoc Kim Phan
Biomedical Research and Therapy.2014;1(2)588
[DOI]
38Iron Oxide Nanoparticles Coated with a Phosphorothioate Oligonucleotide and a Cationic Peptide: Exploring Four Different Ways of Surface Functionalization
Frédéric Geinguenaud,Claire Banissi,Antoine Carpentier,Laurence Motte
Nanomaterials.2015;5(4)1588
[DOI]
39High cell density transient transfection of CHO cells for TGF-ß1 expression
Abdalla A. Elshereef,André Jochums,Antonina Lavrentieva,Lena Stuckenberg,Thomas Scheper,Dörte Solle
Engineering in Life Sciences.2019;19(11)730
[DOI]
40Composite liposome-PEI/nucleic acid lipopolyplexes for safe and efficient gene delivery and gene knockdown
Shashank Reddy Pinnapireddy,Lili Duse,Boris Strehlow,Jens Schäfer,Udo Bakowsky
Colloids and Surfaces B: Biointerfaces.2017;158(11)93
[DOI]
41Ternary complex of plasmid DNA with NLS-Mu-Mu protein and cationic niosome for biocompatible and efficient gene delivery: a comparative study with protamine and lipofectamine
Mohammad Hadi Nematollahi,Masoud Torkzadeh-Mahanai,Abbas Pardakhty,Hossein Ali Ebrahimi Meimand,Gholamreza Asadikaram
Artificial Cells, Nanomedicine, and Biotechnology.2017;158(11)1
[DOI]
42The method of chicken whole embryo culture using the eggshell windowing, surrogate eggshell andex ovoculture system
M. Farzaneh,F. Attari,S. E. Khoshnam,P. E. Mozdziak
British Poultry Science.2018;59(2)240
[DOI]
43The method of chicken whole embryo culture using the eggshell windowing, surrogate eggshell andex ovoculture system
Titus A. Beu,Alexandra Farcas
British Poultry Science.2017;1916(2)020001
[DOI]
44Acylation of the S413-PV cell-penetrating peptide as a means of enhancing its capacity to mediate nucleic acid delivery: Relevance of peptide/lipid interactions
Catarina M. Morais,Ana M. Cardoso,Pedro P. Cunha,Luísa Aguiar,Nuno Vale,Emílio Lage,Marina Pinheiro,Cláudia Nunes,Paula Gomes,Salette Reis,M. Margarida C.A. Castro,Maria C. Pedroso de Lima,Amália S. Jurado
Biochimica et Biophysica Acta (BBA) - Biomembranes.2018;1860(12)2619
[DOI]
45Engineering Biomimetic Materials for Skeletal Muscle Repair and Regeneration
Karina H. Nakayama,Mahdis Shayan,Ngan F. Huang
Advanced Healthcare Materials.2019;1860(12)1801168
[DOI]
46Functionalized 2D nanomaterials for gene delivery applications
Feng Yin,Bobo Gu,Yining Lin,Nishtha Panwar,Swee Chuan Tjin,Junle Qu,Shu Ping Lau,Ken-Tye Yong
Coordination Chemistry Reviews.2017;347(12)77
[DOI]
47Shielding of non-target cells using RNA vectors conferring gene transfer resistance: A strategy to enhance targeting accuracy and reduce side-effects in therapeutic gene delivery
Oleg E. Tolmachov
Medical Hypotheses.2019;132(12)109328
[DOI]
48Generation and Characterization of Virus-Enhancing Peptide Nanofibrils Functionalized with Fluorescent Labels
Sascha Rode,Manuel Hayn,Annika Röcker,Stefanie Sieste,Markus Lamla,Daniel Markx,Christoph Meier,Frank Kirchhoff,Paul Walther,Marcus Fändrich,Tanja Weil,Jan Münch
Bioconjugate Chemistry.2017;28(4)1260
[DOI]
49Polymer-mediated gene therapy: Recent advances and merging of delivery techniques
Janelle W. Salameh,Le Zhou,Sarah M. Ward,Cristiam F. Santa Chalarca,Todd Emrick,Marxa L. Figueiredo
WIREs Nanomedicine and Nanobiotechnology.2020;12(2)1260
[DOI]
50Fluorescent nanoswitch for monitoring specific pluripotency-related microRNAs of induced pluripotent stem cells: Development of polyethyleneimine-oligonucleotide hybridization probes
Seungmin Han,Hye Young Son,Byunghoon Kang,Eunji Jang,Jisun Ki,Na Geum Lee,Jongjin Park,Moo-Kwang Shin,Byeonggeol Mun,Jeong-Ki Min,Seungjoo Haam
Nano Research.2017;10(8)2545
[DOI]
51Recombinant AAV-CEA Tumor Vaccine in Combination with an Immune Adjuvant Breaks Tolerance and Provides Protective Immunity
Jonathan A. Hensel,Vinayak Khattar,Reading Ashton,Selvarangan Ponnazhagan
Molecular Therapy - Oncolytics.2019;12(8)41
[DOI]
52Crustacean nuclear localization signals help facilitating the delivery of DNA into Australian red-claw crayfish cells
Chan D.H. Nguyen,Tomer Ventura,Abigail Elizur
Aquaculture.2019;499(8)149
[DOI]
53Gene-silencing suppressors for high-level production of the HIV-1 entry inhibitor griffithsin in Nicotiana benthamiana
Peyman Habibi,Carlos Ricardo Soccol,Barry R. O’Keefe,Lauren R.H. Krumpe,Jennifer Wilson,Leonardo Lima Pepino de Macedo,Muhammad Faheem,Vanessa Olinto Dos Santos,Guilherme Souza Prado,Marco Antonio Botelho,Severine Lacombe,Maria Fatima Grossi-de-Sa
Process Biochemistry.2018;70(8)45
[DOI]
54Nanomaterial mediated optogenetics: opportunities and challenges
Kai Huang,Qingqing Dou,Xian Jun Loh
RSC Advances.2016;6(65)60896
[DOI]
55PEGylated Chitosan for Nonviral Aerosol and Mucosal Delivery of the CRISPR/Cas9 System in Vitro
Hairui Zhang,Tania F. Bahamondez-Canas,Yajie Zhang,Jasmim Leal,Hugh D.C. Smyth
Molecular Pharmaceutics.2018;15(11)4814
[DOI]
56Multimeric Amphipathic a-Helical Sequences for Rapid and Efficient Intracellular Protein Transport at Nanomolar Concentrations
Jae Hoon Oh,Seung-Eun Chong,Sohee Nam,Soonsil Hyun,Sejong Choi,Hyojun Gye,Sangmok Jang,Joomyung Jang,Sung Won Hwang,Jaehoon Yu,Yan Lee
Advanced Science.2018;5(8)1800240
[DOI]
57An Update on the Toxicity of Cyanogenic Glycosides Bioactive Compounds: Possible Clinical Application in Targeted Cancer Therapy
Bashir Mosayyebi,Mahsa Imani,Leila Mohammadi,Abolfazl Akbarzadeh,Nosratollah Zarghami,Mahdi Edalati,Effat Alizadeh,Mohammad Rahmati
Materials Chemistry and Physics.2020;5(8)122841
[DOI]
58An Update on the Toxicity of Cyanogenic Glycosides Bioactive Compounds: Possible Clinical Application in Targeted Cancer Therapy
Alessio Rotini,Giorgia Giacomazzi,Ester Sara Di Filippo,Maurilio Sampaolesi
Materials Chemistry and Physics.2019;5(8)99
[DOI]
59Advances in Lipid-Based Platforms for RNAi Therapeutics
Sara Falsini,Laura Ciani,Sandra Ristori,Angelo Fortunato,Annarosa Arcangeli
Journal of Medicinal Chemistry.2014;57(4)1138
[DOI]
60Hydrodynamic gene delivery in human skin using a hollow microneedle device
M Dul,M Stefanidou,P Porta,J Serve,C O'Mahony,B Malissen,S Henri,Y Levin,E Kochba,FS Wong,C Dayan,SA Coulman,JC Birchall
Journal of Controlled Release.2017;265(4)120
[DOI]
61Polyplex Evolution: Understanding Biology, Optimizing Performance
Arnaldur Hall,Ulrich Lächelt,Jiri Bartek,Ernst Wagner,Seyed Moein Moghimi
Molecular Therapy.2017;25(7)1476
[DOI]
62Gene Therapy for Pancreatic Cancer: Specificity, Issues and Hopes
Marie Rouanet,Marine Lebrin,Fabian Gross,Barbara Bournet,Pierre Cordelier,Louis Buscail
International Journal of Molecular Sciences.2017;18(6)1231
[DOI]
63Gene Therapy for Pancreatic Cancer: Specificity, Issues and Hopes
Mariana Magalhães,Ana Figueiras,Francisco Veiga
International Journal of Molecular Sciences.2018;18(6)257
[DOI]
64Electrostatically assembled dendrimer complex with a high-affinity protein binder for targeted gene delivery
Jong-won Kim,Joong-jae Lee,Joon Sig Choi,Hak-Sung Kim
International Journal of Pharmaceutics.2018;544(1)39
[DOI]
65Polyethylenimine-based nanocarriers in co-delivery of drug and gene: a developing horizon
Abbas Zakeri,Mohammad Amin Jadidi Kouhbanani,Nasrin Beheshtkhoo,Vahid Beigi,Seyyed Mojtaba Mousavi,Seyyed Ali Reza Hashemi,Ayoob Karimi Zade,Ali Mohammad Amani,Amir Savardashtaki,Esmail Mirzaei,Sara Jahandideh,Ahmad Movahedpour
Nano Reviews & Experiments.2018;9(1)1488497
[DOI]
66Intravenous Delivery of piggyBac Transposons as a Useful Tool for Liver-Specific Gene-Switching
Shingo Nakamura,Masayuki Ishihara,Satoshi Watanabe,Naoko Ando,Masato Ohtsuka,Masahiro Sato
International Journal of Molecular Sciences.2018;19(11)3452
[DOI]
67Exosomes Derived from miR-126-modified MSCs Promote Angiogenesis and Neurogenesis and Attenuate Apoptosis after Spinal Cord Injury in Rats
Jiang-Hu Huang,Yang Xu,Xiao-Ming Yin,Fei-Yue Lin
Neuroscience.2020;424(11)133
[DOI]
68Cell-Penetrating Peptides to Enhance Delivery of Oligonucleotide-Based Therapeutics
Graham McClorey,Subhashis Banerjee
Biomedicines.2018;6(2)51
[DOI]
69Cell-Penetrating Peptides to Enhance Delivery of Oligonucleotide-Based Therapeutics
Soo Min Noh,Seunghyeon Shin,Gyun Min Lee
Biomedicines.2019;6(2)23
[DOI]
70Anti-ageing gene therapy: Not so far away?
Alexander Vaiserman,Elena De Falco,Alexander Koliada,Olga Maslova,Carmela Rita Balistreri
Ageing Research Reviews.2019;56(2)100977
[DOI]
71Anti-ageing gene therapy: Not so far away?
Laura M. Sanchez,Lorena Arciniegas,Vera A. Alvarez,Jimena S. Gonzalez
Ageing Research Reviews.2019;56(2)435
[DOI]
72Nanotechnology for mesenchymal stem cell therapies
Bruna Corradetti,Mauro Ferrari
Journal of Controlled Release.2016;240(2)242
[DOI]
73Delivery of drugs and macromolecules to the mitochondria for cancer therapy
Phong Lu,Benjamin J. Bruno,Malena Rabenau,Carol S. Lim
Journal of Controlled Release.2016;240(2)38
[DOI]
74Functional therapies for cutaneous wound repair in epidermolysis bullosa
Patricia Peking,Ulrich Koller,Eva M. Murauer
Advanced Drug Delivery Reviews.2018;129(2)330
[DOI]
75Functional therapies for cutaneous wound repair in epidermolysis bullosa
Ndidi C. Ngwuluka
Advanced Drug Delivery Reviews.2018;129(2)531
[DOI]
76Roles of microRNAs in T cell immunity: Implications for strategy development against infectious diseases
Bikash R. Giri,Ram I. Mahato,Guofeng Cheng
Medicinal Research Reviews.2019;39(2)706
[DOI]
77Roles of microRNAs in T cell immunity: Implications for strategy development against infectious diseases
Prasoon Pandey,Neelam Balekar
Medicinal Research Reviews.2018;39(2)117
[DOI]
78ORMOPLEXEs for gene therapy: In vitro and in vivo assays
J.C. Matos,A.R. Soares,I. Domingues,G.A. Monteiro,M.C. Gonçalves
Materials Science and Engineering: C.2016;63(2)546
[DOI]
79Synthesis of magnetic cytosine-imprinted chitosan nanoparticles
Mei-Hwa Lee,Arti Ahluwalia,Jian-Zhou Chen,Neng-Lang Shih,Hung-Yin Lin
Nanotechnology.2017;28(8)085705
[DOI]
80Synthesis of magnetic cytosine-imprinted chitosan nanoparticles
Tripti Shukla,Neeraj Upmanyu,Sharad P. Pandey,M.S. Sudheesh
Nanotechnology.2019;28(8)473
[DOI]
81Mapping of bionic array electric field focusing in plasmid DNA-based gene electrotransfer
C J Browne,J L Pinyon,D M Housley,E N Crawford,N H Lovell,M Klugmann,G D Housley
Gene Therapy.2016;23(4)369
[DOI]
82Enhanced transfection of a macromolecular lignin-based DNA complex with low cellular toxicity
Yoon Khei Ho,Dan Kai,Geraldine Xue En Tu,G. Roshan Deen,Heng Phon Too,Xian Jun Loh
Bioscience Reports.2018;38(6)369
[DOI]
83Bacteriophages as vehicles for gene delivery into mammalian cells: prospects and problems
Babak Bakhshinejad,Majid Sadeghizadeh
Expert Opinion on Drug Delivery.2014;11(10)1561
[DOI]
84Hepatocellular targeted a-tocopherol based pH sensitive galactosylated lipids: design, synthesis and transfection studies
Venkanna Muripiti,Brijesh Lohchania,Srujan Kumar Marepally,Srilakshmi V. Patri
MedChemComm.2018;9(2)264
[DOI]
85Hepatocellular targeted a-tocopherol based pH sensitive galactosylated lipids: design, synthesis and transfection studies
Lipika Ray
MedChemComm.2019;9(2)77
[DOI]
86Hepatocellular targeted a-tocopherol based pH sensitive galactosylated lipids: design, synthesis and transfection studies
Martin K. Childers,Zejing Wang
MedChemComm.2016;9(2)1
[DOI]
87A Universal GSH-Responsive Nanoplatform for the Delivery of DNA, mRNA, and Cas9/sgRNA Ribonucleoprotein
Guojun Chen,Ben Ma,Yuyuan Wang,Shaoqin Gong
ACS Applied Materials & Interfaces.2018;10(22)18515
[DOI]
88A Universal GSH-Responsive Nanoplatform for the Delivery of DNA, mRNA, and Cas9/sgRNA Ribonucleoprotein
Daria Sergeeva,Karen Julie la Cour Karottki,Jae Seong Lee,Helene Faustrup Kildegaard
ACS Applied Materials & Interfaces.2019;10(22)185
[DOI]
89Concise Review: The Potential Use of Intestinal Stem Cells to Treat Patients with Intestinal Failure
Sung Noh Hong,James C.Y. Dunn,Matthias Stelzner,Martín G. Martín
STEM CELLS Translational Medicine.2017;6(2)666
[DOI]
90Concise Review: The Potential Use of Intestinal Stem Cells to Treat Patients with Intestinal Failure
Dongwook Yeo,Chounghun Kang,Li Li Ji
STEM CELLS Translational Medicine.2019;1966(2)151
[DOI]
91Gene transfer to the outflow tract
Yalong Dang,Ralitsa Loewen,Hardik A. Parikh,Pritha Roy,Nils A. Loewen
Experimental Eye Research.2017;158(2)73
[DOI]
92The promising alliance of anti-cancer electrochemotherapy with immunotherapy
Christophe Y. Calvet,Lluis M. Mir
Cancer and Metastasis Reviews.2016;35(2)165
[DOI]
93Glycosaminoglycan and Proteoglycan-Based Biomaterials: Current Trends and Future Perspectives
Jelena Rnjak-Kovacina,Fengying Tang,John M. Whitelock,Megan S. Lord
Advanced Healthcare Materials.2018;7(6)1701042
[DOI]
94Glycosaminoglycan and Proteoglycan-Based Biomaterials: Current Trends and Future Perspectives
Joong Ho Moon,Joong Ho Kenry
Advanced Healthcare Materials.2018;7(6)215
[DOI]
95Glycosaminoglycan and Proteoglycan-Based Biomaterials: Current Trends and Future Perspectives
Loutfy H. Madkour
Advanced Healthcare Materials.2019;7(6)485
[DOI]
96An insight into non-integrative gene delivery approaches to generate transgene-free induced pluripotent stem cells
Krishna Kumar Haridhasapavalan,Manash P. Borgohain,Chandrima Dey,Bitan Saha,Gloria Narayan,Sachin Kumar,Rajkumar P. Thummer
Gene.2019;686(6)146
[DOI]
97Evolution of New “Bolaliposomes” using Novel a-Tocopheryl Succinate Based Cationic Lipid and 1,12-Disubstituted Dodecane-Based Bolaamphiphile for Efficient Gene Delivery
Mallikarjun Gosangi,Hithavani Rapaka,Venkatesh Ravula,Srilakshmi V. Patri
Bioconjugate Chemistry.2017;28(7)1965
[DOI]
98Evolution of New “Bolaliposomes” using Novel a-Tocopheryl Succinate Based Cationic Lipid and 1,12-Disubstituted Dodecane-Based Bolaamphiphile for Efficient Gene Delivery
M. Laura Fabre,Paula N. Arrías,Tomás Masson,Matías L. Pidre,Víctor Romanowski
Bioconjugate Chemistry.2020;28(7)197
[DOI]
99Modifying plasmid-loaded HSA-nanoparticles with cell penetrating peptides – Cellular uptake and enhanced gene delivery
J. Mesken,A. Iltzsche,D. Mulac,K. Langer
International Journal of Pharmaceutics.2017;522(1-2)198
[DOI]
100Recent progress of polymeric nanogels for gene delivery
Rima Kandil,Olivia M. Merkel
Current Opinion in Colloid & Interface Science.2019;39(1-2)11
[DOI]
101Surfactant effect on the physicochemical characteristics of cationic solid lipid nanoparticles
Chiara Botto,Nicolò Mauro,Erika Amore,Elisabetta Martorana,Gaetano Giammona,Maria Luisa Bondì
International Journal of Pharmaceutics.2017;516(1-2)334
[DOI]
102The evolution of heart failure with reduced ejection fraction pharmacotherapy: What do we have and where are we going?
Ahmed Selim,Ronald Zolty,Yiannis S. Chatzizisis
Pharmacology & Therapeutics.2017;178(1-2)67
[DOI]
103Poly(ethylenimine) conjugated bioreducible dendrimer for efficient gene delivery
Kihoon Nam,Simhyun Jung,Joung-Pyo Nam,Sung Wan Kim
Journal of Controlled Release.2015;220(1-2)447
[DOI]
104CRISPR/Cas System for Genome Editing: Progress and Prospects as a Therapeutic Tool
Deepak Kumar Sahel,Anupama Mittal,Deepak Chitkara
Journal of Pharmacology and Experimental Therapeutics.2019;370(3)725
[DOI]
105Polymeric nanoparticles as cancer-specific DNA delivery vectors to human hepatocellular carcinoma
Camila G. Zamboni,Kristen L. Kozielski,Hannah J. Vaughan,Maisa M. Nakata,Jayoung Kim,Luke J. Higgins,Martin G. Pomper,Jordan J. Green
Journal of Controlled Release.2017;263(3)18
[DOI]
106BMP2 expressing genetically engineered mesenchymal stem cells on composite fibrous scaffolds for enhanced bone regeneration in segmental defects
Shruthy Kuttappan,A. Anitha,M.G. Minsha,Parvathy M. Menon,T.B. Sivanarayanan,Lakshmi Sumitra Vijayachandran,Manitha B. Nair
Materials Science and Engineering: C.2018;85(3)239
[DOI]
107Synthetic promoter for efficient and muscle-specific expression of exogenous genes
Yili Liu,Yutong He,Yong Wang,Ming Liu,Mingfeng Jiang,Rong Gao,Gang Wang
Plasmid.2019;106(3)102441
[DOI]
108Beyond Gene Transfection with Methacrylate-Based Polyplexes—The Influence of the Amino Substitution Pattern
Anne-Kristin Trützschler,Tanja Bus,Martin Reifarth,Johannes C. Brendel,Stephanie Hoeppener,Anja Traeger,Ulrich S. Schubert
Bioconjugate Chemistry.2018;29(7)2181
[DOI]
109A naphthalimide-based [12]aneN3 compound as an effective and real-time fluorescence tracking non-viral gene vector
Yong-Guang Gao,You-Di Shi,Ying Zhang,Jing Hu,Zhong-Lin Lu,Lan He
Chemical Communications.2015;51(93)16695
[DOI]
110Gene therapies development: slow progress and promising prospect
Eve Hanna,Cécile Rémuzat,Pascal Auquier,Mondher Toumi
Journal of Market Access & Health Policy.2017;5(1)1265293
[DOI]
111?????????????? ??????????? ?????? ?????? ??? ????????? ??? ???????? ??????????? ?????? ? ??????
?. ?. ???????,?. ?. ???????,?. ?. ????????,?. ?. ??????????,?. ?. ?????????,?. ?. ?????????,?. ?. ???????????,?. ?. ???????,?. ?. ??????
??????? ??????????? ???????????????? ???????????? ????????????.2019;5(6)43
[DOI]
112Therapeutic and diagnostic applications of extracellular vesicles
Stephan Stremersch,Stefaan C. De Smedt,Koen Raemdonck
Journal of Controlled Release.2016;244(6)167
[DOI]
113Cationic ß-Cyclodextrin–Chitosan Conjugates as Potential Carrier for pmCherry-C1 Gene Delivery
Touba Eslaminejad,Seyed Noureddin Nematollahi-Mahani,Mehdi Ansari
Molecular Biotechnology.2016;58(4)287
[DOI]
114Protein-based vehicles for biomimetic RNAi delivery
Alex Eli Pottash,Christopher Kuffner,Madeleine Noonan-Shueh,Steven M. Jay
Journal of Biological Engineering.2019;13(1)287
[DOI]
115Nucleic-acid based gene therapy approaches for sepsis
Yuichi Hattori,Kohshi Hattori,Tokiko Suzuki,Sailesh Palikhe,Naoyuki Matsuda
European Journal of Pharmacology.2018;833(1)403
[DOI]
116Nucleic-acid based gene therapy approaches for sepsis
Mohammad Nazmul Hasan,Md Nafiujjaman,Yong-Kyu Lee
European Journal of Pharmacology.2019;833(1)87
[DOI]
117Nanomedicine in osteosarcoma therapy: Micelleplexes for delivery of nucleic acids and drugs toward osteosarcoma-targeted therapies
Miguel Pereira-Silva,Carmen Alvarez-Lorenzo,Angel Concheiro,Ana Cláudia Santos,Francisco Veiga,Ana Figueiras
European Journal of Pharmaceutics and Biopharmaceutics.2020;148(1)88
[DOI]
118Gene therapy for ocular diseases meditated by ultrasound and microbubbles (Review)
CAIFENG WAN,FENGHUA LI,HONGLI LI
Molecular Medicine Reports.2015;12(4)4803
[DOI]
119Engineering and cytosolic delivery of a native regulatory protein and its variants for modulation of ERK2 signaling pathway
Jeong-Hyun Ryou,Yoo-Kyoung Sohn,Dong-Gun Kim,Hyun-Ho Kyeong,Hak-Sung Kim
Biotechnology and Bioengineering.2018;115(4)839
[DOI]
120[12]aneN3-based single aliphatic chain modified cationic lipids as gene delivery vectors
Yong-Guang Gao,Fen-Li Liu,Fu-Hua Lu,Uzair Alam,Quan Tang,Jia-Wei Huang,Zhong-Lin Lu
Tetrahedron.2019;75(5)658
[DOI]
121Virus-inspired nucleic acid delivery system: Linking virus and viral mimicry
Rong Ni,Junli Zhou,Naushad Hossain,Ying Chau
Advanced Drug Delivery Reviews.2016;106(5)3
[DOI]
122Virus-inspired nucleic acid delivery system: Linking virus and viral mimicry
Jagadish Beloor,Hye Yeong Nam,Sang-Kyung Lee,Priti Kumar
Advanced Drug Delivery Reviews.2014;1176(5)115
[DOI]
123Poly-l-lysine-coated superparamagnetic nanoparticles: a novel method for the transfection of pro-BDNF into neural stem cells
Salim Albukhaty,Hossein Naderi-Manesh,Taki Tiraihi,Majid Sakhi Jabir
Artificial Cells, Nanomedicine, and Biotechnology.2018;46(sup3)S125
[DOI]
124Successful reprogramming of cellular protein production through mRNA delivered by functionalized lipid nanoparticles
Marianna Yanez Arteta,Tomas Kjellman,Stefano Bartesaghi,Simonetta Wallin,Xiaoqiu Wu,Alexander J. Kvist,Aleksandra Dabkowska,Noémi Székely,Aurel Radulescu,Johan Bergenholtz,Lennart Lindfors
Proceedings of the National Academy of Sciences.2018;115(15)E3351
[DOI]
125Retro-inverso d -peptide-modified hyaluronic acid/bioreducible hyperbranched poly(amido amine)/pDNA core-shell ternary nanoparticles for the dual-targeted delivery of short hairpin RNA-encoding plasmids
Jijin Gu,Xinyi Chen,Xiaoling Fang,Xianyi Sha
Acta Biomaterialia.2017;57(15)156
[DOI]
126Non-viral nucleic acid delivery to the central nervous system and brain tumors
Shanshan Wang,Rongqin Huang
The Journal of Gene Medicine.2019;21(7)156
[DOI]
127Non-viral nucleic acid delivery to the central nervous system and brain tumors
Arunachalam Muthuraman,Seema Mehdi,Narahari Rishitha
The Journal of Gene Medicine.2019;21(7)73
[DOI]
128Real-Time Monitoring of Exosome Enveloped-AAV Spreading by Endomicroscopy Approach: A New Tool for Gene Delivery in the Brain
Nicola Salvatore Orefice,Benoît Souchet,Jérôme Braudeau,Sandro Alves,Françoise Piguet,Fanny Collaud,Giuseppe Ronzitti,Satoru Tada,Philippe Hantraye,Federico Mingozzi,Frédéric Ducongé,Nathalie Cartier
Molecular Therapy - Methods & Clinical Development.2019;14(7)237
[DOI]
129Polymeric nanoparticle system to target activated microglia/macrophages in spinal cord injury
Simonetta Papa,Raffaele Ferrari,Massimiliano De Paola,Filippo Rossi,Alessandro Mariani,Ilaria Caron,Eliana Sammali,Marco Peviani,Valentina Dell'Oro,Claudio Colombo,Massimo Morbidelli,Gianluigi Forloni,Giuseppe Perale,Davide Moscatelli,Pietro Veglianese
Journal of Controlled Release.2014;174(7)15
[DOI]
130Targeting renal fibrosis: Mechanisms and drug delivery systems
Madalina V. Nastase,Jinyang Zeng-Brouwers,Malgorzata Wygrecka,Liliana Schaefer
Advanced Drug Delivery Reviews.2018;129(7)295
[DOI]
131Nucleic acid delivery to mesenchymal stem cells: a review of nonviral methods and applications
Andrew Hamann,Albert Nguyen,Angela K. Pannier
Journal of Biological Engineering.2019;13(1)295
[DOI]
132RNA Structure Design Improves Activity and Specificity of trans-Splicing-Triggered Cell Death in a Suicide Gene Therapy Approach
Sushmita Poddar,Pei She Loh,Zi Hao Ooi,Farhana Osman,Joachim Eul,Volker Patzel
Molecular Therapy - Nucleic Acids.2018;11(1)41
[DOI]
133Electrospinning Nanofibers for Therapeutics Delivery
S. Shahriar,Jagannath Mondal,Mohammad Hasan,Vishnu Revuri,Dong Lee,Yong-Kyu Lee
Nanomaterials.2019;9(4)532
[DOI]
134Improvement of vascular function by magnetic nanoparticle-assisted circumferential gene transfer into the native endothelium
Sarah Vosen,Sarah Rieck,Alexandra Heidsieck,Olga Mykhaylyk,Katrin Zimmermann,Christian Plank,Bernhard Gleich,Alexander Pfeifer,Bernd K. Fleischmann,Daniela Wenzel
Journal of Controlled Release.2016;241(4)164
[DOI]
135A Synthetic Carrier of Nucleic Acids Structured as a Neutral Phospholipid Envelope Tightly Assembled on Polyplex Surface
Yonger Xue,Jia Feng,Yilei Liu,Junyi Che,Guang Bai,Xiaotao Dong,Fei Wu,Tuo Jin
Advanced Healthcare Materials.2020;241(4)1901705
[DOI]
136Magnetic nanoparticles-based drug and gene delivery systems for the treatment of pulmonary diseases
Ibrahim M El-Sherbiny,Nancy M Elbaz,Mohammed Sedki,Abdulaziz Elgammal,Magdi H Yacoub
Nanomedicine.2017;12(4)387
[DOI]
137Plant viral and bacteriophage delivery of nucleic acid therapeutics
Patricia Lam,Nicole F. Steinmetz
Wiley Interdisciplinary Reviews: Nanomedicine and Nanobiotechnology.2018;10(1)e1487
[DOI]
138Designer Nucleases: Gene-Editing Therapies using CCR5 as an Emerging Target in HIV
Maria João Almeida,Ana Matos
Current HIV Research.2019;17(5)306
[DOI]
139Exploring the functions of polymers in adenovirus-mediated gene delivery: Evading immune response and redirecting tropism
Yanping Sun,Xiaoqian Lv,Pingtian Ding,Long Wang,Yongjun Sun,Shuo Li,Huimin Zhang,Zibin Gao
Acta Biomaterialia.2019;97(5)93
[DOI]
140Poly(1-vinylimidazole) polyplexes as novel therapeutic gene carriers for lung cancer therapy
Gayathri Kandasamy,Elena N Danilovtseva,Vadim V Annenkov,Uma Maheswari Krishnan
Beilstein Journal of Nanotechnology.2020;11(5)354
[DOI]
141The Application of microRNAs in Biomaterial Scaffold-Based Therapies for Bone Tissue Engineering
Marco A. Arriaga,May-Hui Ding,Astrid S. Gutierrez,Sue Anne Chew
Biotechnology Journal.2019;14(10)1900084
[DOI]
142Synthesis of bifunctional molecules containing [12]aneN3 and coumarin moieties as effective DNA condensation agents and new non-viral gene vectors
Pan Yue,Ying Zhang,Zhi-Fo Guo,Ao-Cheng Cao,Zhong-Lin Lu,Yong-Gong Zhai
Organic & Biomolecular Chemistry.2015;13(15)4494
[DOI]
143Therapeutic nucleic acids: current clinical status
Kannan Sridharan,Nithya Jaideep Gogtay
British Journal of Clinical Pharmacology.2016;82(3)659
[DOI]
144Exosomes: natural nanoparticles as bio shuttles for RNAi delivery
Saber Ghazizadeh Darband,Mohammad Mirza-Aghazadeh-Attari,Mojtaba Kaviani,Ainaz Mihanfar,Shirin Sadighparvar,Bahman Yousefi,Maryam Majidinia
Journal of Controlled Release.2018;289(3)158
[DOI]
145Improved synthesis and characterization of cholesteryl oleate-loaded cationic solid lipid nanoparticles with high transfection efficiency for gene therapy applications
Marc Suñé-Pou,María J. Limeres,Isaac Nofrerias,Anna Nardi-Ricart,Silvia Prieto-Sánchez,Younes El-Yousfi,Pilar Pérez-Lozano,Encarna García-Montoya,Montserrat Miñarro-Carmona,Josep Ramón Ticó,Cristina Hernández-Munain,Carlos Suñé,Josep Mª Suñé-Negre
Colloids and Surfaces B: Biointerfaces.2019;180(3)159
[DOI]
146CANCER DIAGNOSTICS, IMAGING AND TREATMENT BY NANOSCALE STRUCTURES TARGETING
Öznur Özge ÖZCAN
Biotechnologia Acta.2019;12(6)12
[DOI]
147Design of PEI-conjugated bio-reducible polymer for efficient gene delivery
Joung-Pyo Nam,Soyoung Kim,Sung Wan Kim
International Journal of Pharmaceutics.2018;545(1-2)295
[DOI]
148Design of PEI-conjugated bio-reducible polymer for efficient gene delivery
Joo-Hyoung Lee,Henning G. Hansen,Sun-Hye Park,Jong-Ho Park,Yeon-Gu Kim
International Journal of Pharmaceutics.2019;545(1-2)49
[DOI]
149Effects of SW033291 on the myogenesis of muscle-derived stem cells and muscle regeneration
Yuanqiang Dong,Yuan Li,Chuan Zhang,Haibin Chen,Lijia Liu,Simeng Chen
Stem Cell Research & Therapy.2020;11(1)49
[DOI]
150Nanostructure Endows Neurotherapeutic Potential in Optogenetics: Current Development and Future Prospects
Mohammed Nadim Sardoiwala,Anup K. Srivastava,Surajit Karmakar,Subhasree Roy Choudhury
ACS Chemical Neuroscience.2019;10(8)3375
[DOI]
151Nanostructure Endows Neurotherapeutic Potential in Optogenetics: Current Development and Future Prospects
Andrea Sorrentino,Emrah Eroglu,Thomas Michel
ACS Chemical Neuroscience.2020;10(8)97
[DOI]
152Delivery of LNA-antimiR-142-3p by Mesenchymal Stem Cells-Derived Exosomes to Breast Cancer Stem Cells Reduces Tumorigenicity
Zahra naseri,Reza Kazemi Oskuee,Mehdi forouzandeh-moghadam,Mahmoud Reza Jaafari
Stem Cell Reviews and Reports.2020;10(8)97
[DOI]
153Basic concepts and recent advances in nanogels as carriers for medical applications
Iordana Neamtu,Alina Gabriela Rusu,Alina Diaconu,Loredana Elena Nita,Aurica P. Chiriac
Drug Delivery.2017;24(1)539
[DOI]
154Novel Delivery Systems for Checkpoint Inhibitors
Purushottam Lamichhane,Rahul Deshmukh,Julie A. Brown,Silvia Jakubski,Priyanka Parajuli,Todd Nolan,Dewan Raja,Mary Badawy,Thomas Yoon,Mark Zmiyiwsky,Narottam Lamichhane
Medicines.2019;6(3)74
[DOI]
155Novel Delivery Systems for Checkpoint Inhibitors
Alekhya Penumarthi,Preetam Basak,Peter Smooker,Ravi Shukla
Medicines.2020;39(3)373
[DOI]
156Method for Dual Viral Vector Mediated CRISPR-Cas9 Gene Disruption in Primary Human Endothelial Cells
Haixia Gong,Menglin Liu,Jeff Klomp,Bradley J. Merrill,Jalees Rehman,Asrar B. Malik
Scientific Reports.2017;7(1)373
[DOI]
157Lipid gene nanocarriers for the treatment of skin diseases: Current state-of-the-art
Coralie Bellefroid,Anna Lechanteur,Brigitte Evrard,Géraldine Piel
European Journal of Pharmaceutics and Biopharmaceutics.2019;137(1)95
[DOI]
158High-throughput screening of clinically approved drugs that prime polyethylenimine transfection reveals modulation of mitochondria dysfunction response improves gene transfer efficiencies
Albert Nguyen,Jared Beyersdorf,Jean-Jack Riethoven,Angela K. Pannier
Bioengineering & Translational Medicine.2016;1(2)123
[DOI]
159Honing Cell and Tissue Culture Conditions for Bone and Cartilage Tissue Engineering
Johnny Lam,Esther J. Lee,Elisa C. Clark,Antonios G. Mikos
Cold Spring Harbor Perspectives in Medicine.2017;7(12)a025734
[DOI]
160Ultrasound-mediated transgene expression in endogenous stem cells recruited to bone injury sites
Galina Shapiro,Ilan Kallai,Dmitriy Sheyn,Wafa Tawackoli,Young Do Koh,Hyun Bae,Tamar Trietel,Riki Goldbart,Joseph Kost,Zulma Gazit,Dan Gazit,Gadi Pelled
Polymers for Advanced Technologies.2014;25(5)525
[DOI]
161Adenovirus-mediated gene delivery: Potential applications for gene and cell-based therapies in the new era of personalized medicine
Cody S. Lee,Elliot S. Bishop,Ruyi Zhang,Xinyi Yu,Evan M. Farina,Shujuan Yan,Chen Zhao,Zongyue Zeng,Yi Shu,Xingye Wu,Jiayan Lei,Yasha Li,Wenwen Zhang,Chao Yang,Ke Wu,Ying Wu,Sherwin Ho,Aravind Athiviraham,Michael J. Lee,Jennifer Moriatis Wolf,Russell R. Reid,Tong-Chuan He
Genes & Diseases.2017;4(2)43
[DOI]
162Three-dimensional microenvironmental priming of human mesenchymal stem cells in hydrogels facilitates efficient and rapid retroviral gene transduction via accelerated cell cycle synchronization
Yein Lee,Yoshie Arai,Jinsung Ahn,Deogil Kim,Seunghee Oh,Donyoung Kang,Hyungsuk Lee,James J. Moon,Bogyu Choi,Soo-Hong Lee
NPG Asia Materials.2019;11(1)43
[DOI]
163Three-dimensional microenvironmental priming of human mesenchymal stem cells in hydrogels facilitates efficient and rapid retroviral gene transduction via accelerated cell cycle synchronization
Phil Chambers,Helen O. McCarthy,Nicholas J. Dunne
NPG Asia Materials.2019;11(1)411
[DOI]
164Functional Biomaterials for Bone Regeneration: A Lesson in Complex Biology
Angela Rita Armiento,Luan Phelipe Hatt,Guillermo Sanchez Rosenberg,Keith Thompson,Martin James Stoddart
Advanced Functional Materials.2020;11(1)1909874
[DOI]
165Stimuli-responsive liposomes for the delivery of nucleic acid therapeutics
Fatemeh Movahedi,Rebecca G. Hu,David L. Becker,Chenjie Xu
Nanomedicine: Nanotechnology, Biology and Medicine.2015;11(6)1575
[DOI]
166Long Noncoding RNAs in Acute Myeloid Leukemia: Functional Characterization and Clinical Relevance
Morgane Gourvest,Pierre Brousset,Marina Bousquet
Cancers.2019;11(11)1638
[DOI]
167Using Stem Cells to Model Diseases of the Outer Retina
Camille Yvon,Conor M. Ramsden,Amelia Lane,Michael B. Powner,Lyndon da Cruz,Peter J. Coffey,Amanda-Jayne F. Carr
Computational and Structural Biotechnology Journal.2015;13(11)382
[DOI]
168The Delivery of Personalised, Precision Medicines via Synthetic Proteins
Benedita Kaç Labbé Feron,Simon Clifford Wainwright Richardson
Drug Delivery Letters.2019;9(2)79
[DOI]
169Bombesin/oligoarginine fusion peptides for gastrin releasing peptide receptor (GRPR) targeted gene delivery
Anjuman Ara Begum,Yu Wan,Istvan Toth,Peter M. Moyle
Bioorganic & Medicinal Chemistry.2018;26(2)516
[DOI]
170Bombesin/oligoarginine fusion peptides for gastrin releasing peptide receptor (GRPR) targeted gene delivery
Diana Rita Barata Costa,Fani Pereira de Sousa,João António de Sampaio Rodrigues Queiroz
Bioorganic & Medicinal Chemistry.2019;26(2)297
[DOI]
171Functional lipids based on [12]aneN3 and naphthalimide as efficient non-viral gene vectors
Yong-Guang Gao,Uzair Alam,Quan Tang,You-Di Shi,Ying Zhang,Ruibing Wang,Zhong-Lin Lu
Organic & Biomolecular Chemistry.2016;14(26)6346
[DOI]
172Liposomal delivery of functional transmembrane ion channels into the cell membranes of target cells; a potential approach for the treatment of channelopathies
Shahenda Ramadan,Salma N. Tammam,Maryam A. Shetab Boushehri,Hans-Georg Breitinger,Ulrike Breitinger,Samar Mansour,Alf Lamprecht
International Journal of Biological Macromolecules.2019;14(26)6346
[DOI]
173Interactions between microRNAs and long non-coding RNAs in cardiac development and repair
Alessio Rotini,Ester Martínez-Sarrà,Enrico Pozzo,Maurilio Sampaolesi
Pharmacological Research.2018;127(26)58
[DOI]
174Plant/Bacterial Virus-Based Drug Discovery, Drug Delivery, and Therapeutics
Esen Sokullu,Hoda Soleymani Abyaneh,Marc A. Gauthier
Pharmaceutics.2019;11(5)211
[DOI]
175Dynamic constitutional chemistry towards efficient nonviral vectors
Daniela Ailincai,Dragos Peptanariu,Mariana Pinteala,Luminita Marin
Materials Science and Engineering: C.2019;94(5)635
[DOI]
176Antibody-targeted chromatin enables effective intracellular delivery and functionality of CRISPR/Cas9 expression plasmids
Tobias Killian,Annette Buntz,Teresa Herlet,Heike Seul,Olaf Mundigl,Gernot Längst,Ulrich Brinkmann
Nucleic Acids Research.2019;47(10)e55
[DOI]
177Epigenome Editing: State of the Art, Concepts, and Perspectives
Goran Kungulovski,Albert Jeltsch
Trends in Genetics.2016;32(2)101
[DOI]
178Amphiphilic small peptides for delivery of plasmid DNAs and siRNAs
Eun-Kyoung Bang,Hanna Cho,Sean S.-H. Jeon,Na Ly Tran,Dong-Kwon Lim,Wooyoung Hur,Taebo Sim
Chemical Biology & Drug Design.2018;91(2)575
[DOI]
179Genetic Modification of the Lung Directed Toward Treatment of Human Disease
Dolan Sondhi,Katie M. Stiles,Bishnu P. De,Ronald G. Crystal
Human Gene Therapy.2017;28(1)3
[DOI]
180Nanotechnology Approaches for the Delivery of Exogenous siRNA for HIV Therapy
Simeon K. Adesina,Emmanuel O. Akala
Molecular Pharmaceutics.2015;12(12)4175
[DOI]
181Creatine based polymer for codelivery of bioengineered MicroRNA and chemodrugs against breast cancer lung metastasis
Jieni Xu,Jingjing Sun,Pui Yan Ho,Zhangyi Luo,Weina Ma,Wenchen Zhao,Sanjay B. Rathod,Christian A. Fernandez,Raman Venkataramanan,Wen Xie,Ai-Ming Yu,Song Li
Biomaterials.2019;210(12)25
[DOI]
182Combining Gene and Stem Cell Therapy for Peripheral Nerve Tissue Engineering
Francesca Busuttil,Ahad A. Rahim,James B. Phillips
Stem Cells and Development.2017;26(4)231
[DOI]
183Freezing-Assisted Gene Delivery Combined with Polyampholyte Nanocarriers
Sana Ahmed,Tadashi Nakaji-Hirabayashi,Takayoshi Watanabe,Takahiro Hohsaka,Kazuaki Matsumura
ACS Biomaterials Science & Engineering.2017;3(8)1677
[DOI]
184Freezing-Assisted Gene Delivery Combined with Polyampholyte Nanocarriers
Zhe Wang,Junqing Wang,Gang Liu
ACS Biomaterials Science & Engineering.2018;3(8)551
[DOI]
185Desarrollo de vectores génicos basados en polímeros sintéticos: PEI y PDMAEMA
Ivonne Lorena Díaz-Ariza,César Augusto Sierra,León Darío Pérez-Pérez
Revista Colombiana de Ciencias Químico-Farmacéuticas.2018;47(3)350
[DOI]
186In vivo methods for acute modulation of gene expression in the central nervous system
Andrzej W. Cwetsch,Bruno Pinto,Annalisa Savardi,Laura Cancedda
Progress in Neurobiology.2018;168(3)69
[DOI]
187In vivo methods for acute modulation of gene expression in the central nervous system
Ashok Kumar Sharma,Lokesh Gupta,Umesh Gupta
Progress in Neurobiology.2017;168(3)13
[DOI]
188Engineering Human Epidermal Growth Receptor 2-Targeting Hepatitis B Virus Core Nanoparticles for siRNA Delivery in Vitro and in Vivo
Izzat F. M. Suffian,Julie T.-W. Wang,Farid N. Faruqu,Julio Benitez,Yuya Nishimura,Chiaki Ogino,Akihiko Kondo,Khuloud T. Al-Jamal
ACS Applied Nano Materials.2018;1(7)3269
[DOI]
189Preparation of gene drug delivery systems of cationic peptide lipid with 0G-PAMAM as hydrophilic end and its biological properties evaluation
Yingying Feng,Haimei Hu,Shuanghong liang,Dan Wang
Chemistry and Physics of Lipids.2019;224(7)104685
[DOI]
190RNA-Guided Adenosine Deaminases: Advances and Challenges for Therapeutic RNA Editing
Genghao Chen,Dhruva Katrekar,Prashant Mali
Biochemistry.2019;58(15)1947
[DOI]
191Gene therapy for cardiovascular disease mediated by ultrasound and microbubbles
Zhi-Yi Chen,Yan Lin,Feng Yang,Lan Jiang,Shu ping Ge
Cardiovascular Ultrasound.2013;11(1)1947
[DOI]
192miRNAs in gastrointestinal diseases: can we effectively deliver RNA-based therapeutics orally?
A K M Nawshad Hossian,Gerardo G Mackenzie,George Mattheolabakis
Nanomedicine.2019;14(21)2873
[DOI]
193miRNAs in gastrointestinal diseases: can we effectively deliver RNA-based therapeutics orally?
Canan Ozyurt,Burhan Bora,Ozge Ugurlu,Serap Evran
Nanomedicine.2017;14(21)551
[DOI]
194Exosome-based small RNA delivery: Progress and prospects
Mei Lu,Haonan Xing,Zhe Xun,Tianzhi Yang,Pingtian Ding,Cuifang Cai,Dongkai Wang,Xiaoyun Zhao
Asian Journal of Pharmaceutical Sciences.2018;13(1)1
[DOI]
195Enhancement of nucleic acid delivery to hard-to-transfect human colorectal cancer cells by magnetofection at laminin coated substrates and promotion of the endosomal/lysosomal escape
María Belén Cerda,Milena Batalla,Martina Anton,Eduardo Cafferata,Osvaldo Podhajcer,Christian Plank,Olga Mykhaylyk,Lucia Policastro
RSC Advances.2015;5(72)58345
[DOI]
196Rational Design of a siRNA Delivery System: ALOX5 and Cancer Stem Cells as Therapeutic Targets
Diana Rafael,Fernanda Andrade,Sara Montero,Petra Gener,Joaquin Seras-Franzoso,Francesc Martínez,Patricia González,Helena Florindo,Diego Arango,Joan Sayós,Ibane Abasolo,Mafalda Videira,Simó Schwartz Jr.
Precision Nanomedicine.2018;1(2)86
[DOI]
197Genetically modified mesenchymal stem/stromal cells transfected with adiponectin gene can stably secrete adiponectin
Md. Murad Hossain,Malliga Raman Murali,Tunku Kamarul
Life Sciences.2017;182(2)50
[DOI]
198Systematically probing the bottom-up synthesis of AuPAMAM conjugates for enhanced transfection efficiency
Elizabeth R. Figueroa,J. Stephen Yan,Nicolette K. Chamberlain-Simon,Adam Y. Lin,Aaron E. Foster,Rebekah A. Drezek
Journal of Nanobiotechnology.2016;14(1)50
[DOI]
199Gene delivery using calcium phosphate nanoparticles: Optimization of the transfection process and the effects of citrate and poly( l -lysine) as additives
Mohammed A. Khan,Victoria M. Wu,Shreya Ghosh,Vuk Uskokovic
Journal of Colloid and Interface Science.2016;471(1)48
[DOI]
200Evaluating Nonintegrating Lentiviruses as Safe Vectors for Noninvasive Reporter-Based Molecular Imaging of Multipotent Mesenchymal Stem Cells
Amanda M. Hamilton,Paula J. Foster,John A. Ronald
Human Gene Therapy.2018;29(10)1213
[DOI]
201Engineering brown fat into skeletal muscle using ultrasound-targeted microbubble destruction gene delivery in obese Zucker rats: Proof of concept design
Raul A. Bastarrachea,Jiaxi Chen,Jack W. Kent,Edna J. Nava-Gonzalez,Ernesto Rodriguez-Ayala,Marcel M. Daadi,Barbara Jorge,Hugo Laviada-Molina,Anthony G. Comuzzie,Shuyuan Chen,Paul A. Grayburn
IUBMB Life.2017;69(9)745
[DOI]
202Mesenchymal stem cell-associated lncRNA in osteogenic differentiation
Cheng Ju,Renfeng Liu,Yuan-Wei Zhang,Yu Zhang,Ruihao Zhou,Jun Sun,Xiao-Bin Lv,Zhiping Zhang
Biomedicine & Pharmacotherapy.2019;115(9)108912
[DOI]
203Current viral-mediated gene transfer research for treatment of Alzheimer’s disease
Andrew Octavian Sasmita
Biotechnology and Genetic Engineering Reviews.2019;35(1)26
[DOI]
204Highly luminescent and cytocompatible cationic Ag2S NIR-emitting quantum dots for optical imaging and gene transfection
Fatma Demir Duman,Ibrahim Hocaoglu,Deniz Gulfem Ozturk,Devrim Gozuacik,Alper Kiraz,Havva Yagci Acar
Nanoscale.2015;7(26)11352
[DOI]
205A review of gene- and cell-based therapies for familial hypercholesterolemia
Saeideh Hajighasemi,Armita Mahdavi Gorabi,Vanessa Bianconi,Matteo Pirro,Maciej Banach,Hossein Ahmadi Tafti,Željko Reiner,Amirhossein Sahebkar
Pharmacological Research.2019;143(26)119
[DOI]
206DNA vaccination via RALA nanoparticles in a microneedle delivery system induces a potent immune response against the endogenous prostate cancer stem cell antigen
Grace Cole,Ahlam A. Ali,Emma McErlean,Eoghan J. Mulholland,Amy Short,Cian M. McCrudden,Joanne McCaffrey,Tracy Robson,Vicky L. Kett,Jonathan A. Coulter,Nicholas J. Dunne,Ryan F. Donnelly,Helen O. McCarthy
Acta Biomaterialia.2019;96(26)480
[DOI]
207Mechanisms of unprimed and dexamethasone-primed nonviral gene delivery to human mesenchymal stem cells
Andrew Hamann,Kelly Broad,Albert Nguyen,Angela K. Pannier
Biotechnology and Bioengineering.2019;116(2)427
[DOI]
208Mechanisms of unprimed and dexamethasone-primed nonviral gene delivery to human mesenchymal stem cells
Evangelos Pazarentzos,Nicholas D. Mazarakis
Biotechnology and Bioengineering.2014;818(2)255
[DOI]
209Mechanisms of unprimed and dexamethasone-primed nonviral gene delivery to human mesenchymal stem cells
Rachel Gaul,Joanne M. Ramsey,Andreas Heise,Sally-Ann Cryan,Catherine M. Greene
Biotechnology and Bioengineering.2018;818(2)221
[DOI]
210Recent advances in stem cell therapeutics and tissue engineering strategies
Seong Gyu Kwon,Yang Woo Kwon,Tae Wook Lee,Gyu Tae Park,Jae Ho Kim
Biomaterials Research.2018;22(1)221
[DOI]
211Optimization and Characterization of Calcium Phosphate Transfection in Mesenchymal Stem Cells
Chi-Wen Lo,Tzuhua Lin,Masaya Ueno,Monica Romero-Lopez,Masahiro Maruyama,Yusuke Kohno,Claire Rhee,Zhenyu Yao,Magdiel Pérez-Cruz,Everett Meyer,Stuart B. Goodman
Tissue Engineering Part C: Methods.2019;25(9)543
[DOI]
212Optimization and Characterization of Calcium Phosphate Transfection in Mesenchymal Stem Cells
B.J. Mader,N.M. Boulis
Tissue Engineering Part C: Methods.2017;25(9)171
[DOI]
213Enhanced gene transfection efficiency by low-dose 25?kDa polyethylenimine by the assistance of 1.8?kDa polyethylenimine
Hui Zhang,Zhiyi Chen,Meng Du,Yue Li,Yuhao Chen
Drug Delivery.2018;25(1)1740
[DOI]
214Enhanced gene transfection efficiency by low-dose 25?kDa polyethylenimine by the assistance of 1.8?kDa polyethylenimine
V. Kumar,D. Wen,R.I. Mahato
Drug Delivery.2017;25(1)506
[DOI]
215The use of nanoparticulates to treat breast cancer
Xiaomeng Tang,Welley S Loc,Cheng Dong,Gail L Matters,Peter J Butler,Mark Kester,Craig Meyers,Yixing Jiang,James H Adair
Nanomedicine.2017;12(19)2367
[DOI]
216Therapeutic potential of combined viral transduction and CRISPR/Cas9 gene editing in treating neurodegenerative diseases
Joshua Kuruvilla,Andrew Octavian Sasmita,Anna Pick Kiong Ling
Neurological Sciences.2018;39(11)1827
[DOI]
217A mechanistic investigation exploring the differential transfection efficiencies between the easy-to-transfect SK-BR3 and difficult-to-transfect CT26 cell lines
Elizabeth Figueroa,Pallavi Bugga,Vishwaratn Asthana,Allen L. Chen,J. Stephen Yan,Emily Reiser Evans,Rebekah A. Drezek
Journal of Nanobiotechnology.2017;15(1)1827
[DOI]
218A COMPARISON OF UNILAMELLAR AND MULTILAMELLAR LIPOPLEXES IN TERMS OF TRANSFECTION EFFICIENCY OF HUMAN EMBRYONIC KIDNEY CELLS
Mohmood Tavallaie
Journal of Nanotechnology and Materials Science.2016;3(2)1
[DOI]
219Inhalable particulate drug delivery systems for lung cancer therapy: Nanoparticles, microparticles, nanocomposites and nanoaggregates
Hadeer M. Abdelaziz,Mohamed Gaber,Mahmoud M. Abd-Elwakil,Moustafa T. Mabrouk,Mayada M. Elgohary,Nayra M. Kamel,Dalia M. Kabary,May S. Freag,Magda W. Samaha,Sana M. Mortada,Kadria A. Elkhodairy,Jia-You Fang,Ahmed O. Elzoghby
Journal of Controlled Release.2018;269(2)374
[DOI]
220Gene Therapy for Inherited Muscle Diseases
Robynne Braun,Zejing Wang,David L. Mack,Martin K. Childers
American Journal of Physical Medicine & Rehabilitation.2014;93(2)S97
[DOI]
221Gene Therapy for Inherited Muscle Diseases
Wayne John Hawthorne
American Journal of Physical Medicine & Rehabilitation.2016;93(2)285
[DOI]
222Pharmacological Reprogramming of Somatic Cells for Regenerative Medicine
Min Xie,Shibing Tang,Ke Li,Sheng Ding
Accounts of Chemical Research.2017;50(5)1202
[DOI]
223Pharmacological Reprogramming of Somatic Cells for Regenerative Medicine
Morteza Hasanzadeh Kafshgari,Nicolas H. Voelcker,Frances J. Harding
Accounts of Chemical Research.2019;50(5)211
[DOI]
224Injection parameters and virus dependent choice of promoters to improve neuron targeting in the nonhuman primate brain
W Lerchner,B Corgiat,V Der Minassian,R C Saunders,B J Richmond
Gene Therapy.2014;21(3)233
[DOI]
225Generation of stable cell line by using chitosan as gene delivery system
Emine Salva,Suna Özbas Turan,Ceyda Ekentok,Jülide Akbuga
Cytotechnology.2016;68(4)1033
[DOI]
226A dual gold nanoparticle system for mesenchymal stem cell tracking
L. M. Ricles,S. Y. Nam,E. A. Treviño,S. Y. Emelianov,L. J. Suggs
J. Mater. Chem. B.2014;2(46)8220
[DOI]
227A dual gold nanoparticle system for mesenchymal stem cell tracking
C. Heil,D. Palacios
J. Mater. Chem. B.2016;2(46)859
[DOI]
228Stimuli-Regulated Smart Polymeric Systems for Gene Therapy
Ansuja Mathew,Ki-Hyun Cho,Saji Uthaman,Chong-Su Cho,In-Kyu Park
Polymers.2017;9(12)152
[DOI]
229Polyamidoamine (PAMAM) Dendrimers Modified with Cathepsin-B Cleavable Oligopeptides for Enhanced Gene Delivery
Seulgi Lee,Sang Son,Su Song,Tai Ha,Joon Choi
Polymers.2017;9(12)224
[DOI]
230Recent advances in the development of gene delivery systems
YK Sung,SW Kim
Biomaterials Research.2019;23(1)224
[DOI]
231Neuroglobin Expression Models as a Tool to Study Its Function
Evi Luyckx,Zoë P. Van Acker,Peter Ponsaerts,Sylvia Dewilde
Oxidative Medicine and Cellular Longevity.2019;2019(1)1
[DOI]
232New polymer of lactic-co-glycolic acid-modified polyethylenimine for nucleic acid delivery
Jian-Ming Lü,Zhengdong Liang,Xiaoxiao Wang,Jianhua Gu,Qizhi Yao,Changyi Chen
Nanomedicine.2016;11(15)1971
[DOI]
233Mesenchymal stem cells: A new platform for targeting suicide genes in cancer
Rana Moradian Tehrani,Javad Verdi,Mahdi Noureddini,Rasoul Salehi,Reza Salarinia,Meysam Mosalaei,Miganosh Simonian,Behrang Alani,Moosa Rahimi Ghiasi,Mahmoud Reza Jaafari,Hamed Reza Mirzaei,Hamed Mirzaei
Journal of Cellular Physiology.2018;233(5)3831
[DOI]
234Live attenuated influenza vaccine viral vector induces functional cytotoxic T-cell immune response against foreign CD8+ T-cell epitopes inserted into NA and NS1 genes using the 2A self-cleavage site
Tatiana Kotomina,Daniil Korenkov,Victoria Matyushenko,Polina Prokopenko,Larisa Rudenko,Irina Isakova-Sivak
Human Vaccines & Immunotherapeutics.2018;14(12)2964
[DOI]
235Gene based therapies for kidney regeneration
Manoe J. Janssen,Fanny O. Arcolino,Perry Schoor,Robbert Jan Kok,Enrico Mastrobattista
European Journal of Pharmacology.2016;790(12)99
[DOI]
236Myoediting: Toward Prevention of Muscular Dystrophy by Therapeutic Genome Editing
Yu Zhang,Chengzu Long,Rhonda Bassel-Duby,Eric N. Olson
Physiological Reviews.2018;98(3)1205
[DOI]
237Mesenchymal Stromal/Stem Cells: A New Era in the Cell-Based Targeted Gene Therapy of Cancer
Faroogh Marofi,Ghasem Vahedi,Alireza Biglari,Abdolreza Esmaeilzadeh,Seyyed Shamsadin Athari
Frontiers in Immunology.2017;8(3)1205
[DOI]
238Efficient Nonviral Transfection of Human Bone Marrow Mesenchymal Stromal Cells Shown Using Placental Growth Factor Overexpression
Winston Y. Cheung,Owen Hovey,Jonathan M. Gobin,Gauri Muradia,Jelica Mehic,Carole Westwood,Jessie R. Lavoie
Stem Cells International.2018;2018(3)1
[DOI]
239Graphene-based materials for tissue engineering
Su Ryon Shin,Yi-Chen Li,Hae Lin Jang,Parastoo Khoshakhlagh,Mohsen Akbari,Amir Nasajpour,Yu Shrike Zhang,Ali Tamayol,Ali Khademhosseini
Advanced Drug Delivery Reviews.2016;105(3)255
[DOI]
240Nucleic Acid Delivery for Endothelial Dysfunction in Cardiovascular Diseases
Dipti Deshpande,David R. Janero,Victor Segura-Ibarra,Elvin Blanco,Mansoor M. Amiji
Methodist DeBakey Cardiovascular Journal.2016;12(3)134
[DOI]
241Lipidoid iron oxide nanoparticles are a platform for nucleic acid delivery to the liver
V.I. Uvarova,T.R. Nizamov,M.A. Abakumov,S.S. Vodopyanov,T.O. Abakumova,I.V. Saltykova,P.S. Mogilnikov,I.V. Shchetinin,A.M. Majouga
Bulletin of Russian State Medical University.2019;12(6)40
[DOI]
242Poloxamers, poloxamines and polymeric micelles: Definition, structure and therapeutic applications in cancer
Mauro Almeida,Mariana Magalhães,Francisco Veiga,Ana Figueiras
Journal of Polymer Research.2018;25(1)40
[DOI]
243Recombinant Histones as an Instrument for the Delivery of Nucleic Acids into Eukaryotic Cells
M. V. Zinovyeva,A. V. Sass,A. V. Vvedensky,V. K. Potapov,L. G. Nikolaev,E. D. Sverdlov
Molecular Genetics, Microbiology and Virology.2018;33(3)187
[DOI]
244Boron nitride nanotubes for gene silencing
Özlem Sen,Zehra Çobandede,Melis Emanet,Ömer Faruk Bayrak,Mustafa Çulha
Biochimica et Biophysica Acta (BBA) - General Subjects.2017;1861(9)2391
[DOI]
245Engineering DNA vaccines against infectious diseases
Jihui Lee,Shreedevi Arun Kumar,Yong Yu Jhan,Corey J. Bishop
Acta Biomaterialia.2018;80(9)31
[DOI]
246Engineering DNA vaccines against infectious diseases
Anita Lalwani,Pragna Shelat,Jayvadan K. Patel
Acta Biomaterialia.2018;80(9)293
[DOI]
247Engineering DNA vaccines against infectious diseases
Eliana B. Souto,A. R. Fernandes,J. Dias Ferreira,C. F. da Silva,Patrícia Severino,Carlos Martins-Gomes,Amélia M. Silva
Acta Biomaterialia.2018;80(9)328
[DOI]
248Engineering DNA vaccines against infectious diseases
Ayan K. Barui,Rajesh Kotcherlakota,Chitta R. Patra
Acta Biomaterialia.2017;80(9)67
[DOI]
249Effects of human placenta-derived mesenchymal stem cells with NK4 gene expression on glioblastoma multiforme cell lines
Zahra Jabbarpour,Jafar Kiani,Somayeh Keshtkar,Massoud Saidijam,Mohammad H. Ghahremani,Naser Ahmadbeigi
Journal of Cellular Biochemistry.2020;121(2)1362
[DOI]
250Ligand targeting and peptide functionalized polymers as non-viral carriers for gene therapy
Khan Muhammad,Jing Zhao,Ihsan Ullah,Jintang Guo,Xiang-kui Ren,Yakai Feng
Biomaterials Science.2020;8(1)64
[DOI]
251Ligand targeting and peptide functionalized polymers as non-viral carriers for gene therapy
M. Lakshmi priya,D. Rana,A. Bhatt,M. Ramalingam
Biomaterials Science.2017;8(1)253
[DOI]
252Sustained viral gene delivery from a micro-fibrous, elastomeric cardiac patch to the ischemic rat heart
Xinzhu Gu,Yasumoto Matsumura,Ying Tang,Souvik Roy,Richard Hoff,Bing Wang,William R. Wagner
Biomaterials.2017;133(1)132
[DOI]
253Lipid-Coated, pH-Sensitive Magnesium Phosphate Particles for Intracellular Protein Delivery
Yunzhou Fang,Mallika Vadlamudi,Yingbo Huang,Xin Guo
Pharmaceutical Research.2019;36(6)132
[DOI]
254Improved biocompatibility and efficient labeling of neural stem cells with poly(L-lysine)-coated maghemite nanoparticles
Igor M Pongrac,Marina Dobrivojevic,Lada Brkic Ahmed,Michal Babic,Miroslav Šlouf,Daniel Horák,Srecko Gajovic
Beilstein Journal of Nanotechnology.2016;7(6)926
[DOI]
255Multifaceted Applications of Chitosan in Cancer Drug Delivery and Therapy
Anish Babu,Rajagopal Ramesh
Marine Drugs.2017;15(4)96
[DOI]
256Multifaceted Applications of Chitosan in Cancer Drug Delivery and Therapy
Ahmed F.A. Mohammed,Keiichi Motoyama,Taishi Higashi,Hidetoshi Arima
Marine Drugs.2018;15(4)96
[DOI]
257Gene Therapy for Inherited Retinal Degeneration
Amirmohsen Arbabi,Amelia Liu,Hossein Ameri
Journal of Ocular Pharmacology and Therapeutics.2019;35(2)79
[DOI]
258Cell surface engineering and application in cell delivery to heart diseases
Daniel Y. Lee,Byung-Hyun Cha,Minjin Jung,Angela S. Kim,David A. Bull,Young-Wook Won
Journal of Biological Engineering.2018;12(1)79
[DOI]
259Cancer Treatment Goes Viral: Using Viral Proteins to Induce Tumour-Specific Cell Death
Jasmine Wyatt,Manuel M. Müller,Mahvash Tavassoli
Cancers.2019;11(12)1975
[DOI]
260Effective Gene Delivery into Human Stem Cells with a Cell-Targeting Peptide-Modified Bioreducible Polymer
Jagadish Beloor,Suresh Ramakrishna,Kihoon Nam,Chang Seon Choi,Jongkil Kim,Sung Hwa Kim,Hyong Jin Cho,HeungSoo Shin,Hyongbum Kim,Sung Wan Kim,Sang-Kyung Lee,Priti Kumar
Small.2015;11(17)2069
[DOI]
261Effective Gene Delivery into Human Stem Cells with a Cell-Targeting Peptide-Modified Bioreducible Polymer
Ann-Marie Ako-Adounvo,Beatriz Marabesi,Rayssa Costa Lemos,Ayuk Patricia,Pradeep K. Karla
Small.2017;11(17)375
[DOI]
262Stimuli-responsive graphene-incorporated multifunctional chitosan for drug delivery applications: a review
Sahar Gooneh-Farahani,M. Reza Naimi-Jamal,Seyed Morteza Naghib
Expert Opinion on Drug Delivery.2019;16(1)79
[DOI]
263Neprilysin gene transfer: A promising therapeutic approach for Alzheimer's disease
Yuanli Li,Junqing Wang,Shenghao Zhang,Zhaohui Liu
Journal of Neuroscience Research.2015;93(9)1325
[DOI]
264Transfection efficiencies of a-tocopherylated cationic gemini lipids with hydroxyethyl bearing headgroups under high serum conditions
Bappa Maiti,Mohini Kamra,Anjali A. Karande,Santanu Bhattacharya
Organic & Biomolecular Chemistry.2018;16(11)1983
[DOI]
265The determination of gemini surfactants used as gene delivery agents in cellular matrix using validated tandem mass spectrometric method
Wei Jin,Ildiko Badea,Scot C. Leary,Anas El-Aneed
Journal of Pharmaceutical and Biomedical Analysis.2019;164(11)164
[DOI]
266Synthesis and Degradation Study of Cationic Polycaprolactone-Based Nanoparticles for Biomedical and Industrial Applications
Azzurra Agostini,Simone Gatti,Alberto Cesana,Davide Moscatelli
Industrial & Engineering Chemistry Research.2017;56(20)5872
[DOI]
267Technical Improvement and Application of Hydrodynamic Gene Delivery in Study of Liver Diseases
Mei Huang,Rui Sun,Qiang Huang,Zhigang Tian
Frontiers in Pharmacology.2017;8(20)5872
[DOI]
268Insights into the key roles of epigenetics in matrix macromolecules-associated wound healing
Zoi Piperigkou,Martin Götte,Achilleas D. Theocharis,Nikos K. Karamanos
Advanced Drug Delivery Reviews.2018;129(20)16
[DOI]
269Biomaterial substrate modifications that influence cell-material interactions to prime cellular responses to nonviral gene delivery
Amy Mantz,Angela K Pannier
Experimental Biology and Medicine.2019;244(2)100
[DOI]
270The study of genes and signal transduction pathways involved in mustard lung injury: A gene therapy approach
Iman Arabipour,Jafar Amani,Seyed Ali Mirhosseini,Jafar Salimian
Gene.2019;714(2)143968
[DOI]
271Adeno-Associated Viral Vectors Serotype 8 for Cell-Specific Delivery of Therapeutic Genes in the Central Nervous System
Diego Pignataro,Diego Sucunza,Lucia Vanrell,Esperanza Lopez-Franco,Iria G. Dopeso-Reyes,Africa Vales,Mirja Hommel,Alberto J. Rico,Jose L. Lanciego,Gloria Gonzalez-Aseguinolaza
Frontiers in Neuroanatomy.2017;11(2)143968
[DOI]
272Molecular Communication and Nanonetwork for Targeted Drug Delivery: A Survey
Uche A. K. Chude-Okonkwo,Reza Malekian,B. T. Maharaj,Athanasios V. Vasilakos
IEEE Communications Surveys & Tutorials.2017;19(4)3046
[DOI]
273Molecular Communication and Nanonetwork for Targeted Drug Delivery: A Survey
Mitchell E. Menezes,Sarmistha Talukdar,Stephen L. Wechman,Swadesh K. Das,Luni Emdad,Devanand Sarkar,Paul B. Fisher
IEEE Communications Surveys & Tutorials.2018;138(4)213
[DOI]
274Molecular Communication and Nanonetwork for Targeted Drug Delivery: A Survey
Kristo Nuutila,Mansher Singh,Elof Eriksson
IEEE Communications Surveys & Tutorials.2018;138(4)11
[DOI]
275A novel non-viral gene vector for hepatocyte-targeting and in situ monitoring of DNA delivery in single cells
Yong-Guang Gao,Quan Tang,You-Di Shi,Ying Zhang,Ruibing Wang,Zhong-Lin Lu
RSC Adv..2016;6(55)50053
[DOI]
276Improved formulation of cationic solid lipid nanoparticles displays cellular uptake and biological activity of nucleic acids
Anna Fàbregas,Silvia Prieto-Sánchez,Marc Suñé-Pou,Sofía Boyero-Corral,Josep Ramón Ticó,Encarna García-Montoya,Pilar Pérez-Lozano,Montserrat Miñarro,Josep Mª Suñé-Negre,Cristina Hernández-Munain,Carlos Suñé
International Journal of Pharmaceutics.2017;516(1-2)39
[DOI]
277Transfection Studies with Colloidal Systems Containing Highly Purified Bipolar Tetraether Lipids from Sulfolobus acidocaldarius
Konrad H. Engelhardt,Shashank Reddy Pinnapireddy,Elias Baghdan,Jarmila Jedelská,Udo Bakowsky
Archaea.2017;2017(1-2)1
[DOI]
278LINGO-1 siRNA nanoparticles promote central remyelination in ethidium bromide-induced demyelination in rats
Alaa Eldin H. Youssef,Abeer E. Dief,Nesrine M. El Azhary,Doaa A. Abdelmonsif,Ola S. El-fetiany
Journal of Physiology and Biochemistry.2019;75(1)89
[DOI]
279An update on gene therapy for lysosomal storage disorders
Murtaza S. Nagree,Simone Scalia,William M. McKillop,Jeffrey A. Medin
Expert Opinion on Biological Therapy.2019;19(7)655
[DOI]
280Recombinant histones as an instrument for delivery of nucleic acids into eukaryotic cells
M. V. Zinovyeva,A. V. Sass,A. V. Vvedensky,V. K. Potapov,L. G. Nikolaev,E. D. Sverdlov
Molecular Genetics Microbiology and Virology (Russian version).2018;36(3)30
[DOI]
281Advances in the design of solid lipid nanoparticles and nanostructured lipid carriers for targeting brain diseases
Christos Tapeinos,Matteo Battaglini,Gianni Ciofani
Journal of Controlled Release.2017;264(3)306
[DOI]
282Polyamidoamine (PAMAM) dendrimers modified with short oligopeptides for early endosomal escape and enhanced gene delivery
Le Thi Thuy,Sudipta Mallick,Joon Sig Choi
International Journal of Pharmaceutics.2015;492(1-2)233
[DOI]
283Effect of sustained PDGF nonviral gene delivery on repair of tooth-supporting bone defects
A B Plonka,B Khorsand,N Yu,J V Sugai,A K Salem,W V Giannobile,S Elangovan
Gene Therapy.2017;24(1)31
[DOI]
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