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Expert Opinion on Drug Delivery Volume 12, 2015 - Issue 5
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Silk-elastin-like protein biomaterials for the controlled delivery of therapeutics

Wenwen HuangTufts University, Department of Biomedical Engineering, 4 Colby Street, Medford, MA 02155, USA
(Postdoctoral scholars) ,
Alexandra RollettTufts University, Department of Biomedical Engineering, 4 Colby Street, Medford, MA 02155, USA
(Postdoctoral scholars) &
David L KaplanTufts University, Department of Biomedical Engineering, 4 Colby Street, Medford, MA 02155, USA+1 617 627 3251; +1 617 627 3231; [email protected]
(Professor)
Pages 779-791 | Published online: 05 Dec 2014

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Burcin Yavuz, Laura Chambre & David L Kaplan. (2019) Extended release formulations using silk proteins for controlled delivery of therapeutics. Expert Opinion on Drug Delivery 16:7, pages 741-756.
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Yeongjin Noh, Eunjoo Son & Chaenyung Cha. (2023) Exploring stimuli-responsive elastin-like polypeptide for biomedicine and beyond: potential application as programmable soft actuators. Frontiers in Bioengineering and Biotechnology 11.
Crossref
F. Ravanetti, P. Borghetti, M. Zoboli, P.M. Veloso, E. De Angelis, R. Ciccimarra, R. Saleri, A. Cacchioli, F. Gazza, R. Machado, L. Ragionieri & C. Attanasio. (2023) Biomimetic approach for an articular cartilage patch: Combination of decellularized cartilage matrix and silk-elastin-like-protein (SELP) hydrogel. Annals of Anatomy - Anatomischer Anzeiger 250, pages 152144.
Crossref
Aglaia Mantsou, Eleni Papachristou, Panagiotis Keramidas, Paraskevas Lamprou, Maria Pitou, Rigini M. Papi, Katerina Dimitriou, Amalia Aggeli & Theodora Choli-Papadopoulou. (2023) Fabrication of a Smart Fibrous Biomaterial That Harbors an Active TGF-β1 Peptide: A Promising Approach for Cartilage Regeneration. Biomedicines 11:7, pages 1890.
Crossref
Jugal Kishore Sahoo, Onur Hasturk, Thomas Falcucci & David L. Kaplan. (2023) Silk chemistry and biomedical material designs. Nature Reviews Chemistry 7:5, pages 302-318.
Crossref
Aglaia Mantsou, Eleni Papachristou, Panagiotis Keramidas, Paraskevas Lamprou, Alexandros Pavlidis, Rigini Papi, Katerina Dimitriou, Amalia Aggeli & Theodora Choli-Papadopoulou. (2023) A Novel Drastic Peptide Genetically Adapted to Biomimetic Scaffolds “Delivers” Osteogenic Signals to Human Mesenchymal Stem Cells. Nanomaterials 13:7, pages 1236.
Crossref
Sijia Wang, Wenxin Huang, Zhaoxuan Feng, Xiaoli Tian, Dexin Wang, Lang Rao, Ming Tan, Niran Roongsawang, Hui Song, Wenxia Jiang & Wenqin Bai. (2023) Laccase-mediated formation of hydrogels based on silk-elastin-like protein polymers with ultra-high molecular weight. International Journal of Biological Macromolecules 231, pages 123239.
Crossref
Mahsa Sedighi, Neha Shrestha, Zahra Mahmoudi, Zahra Khademi, Alireza Ghasempour, Hamideh Dehghan, Seyedeh Fahimeh Talebi, Maryam Toolabi, Véronique Préat, Bozhi Chen, Xindong Guo & Mohammad-Ali Shahbazi. (2023) Multifunctional Self-Assembled Peptide Hydrogels for Biomedical Applications. Polymers 15:5, pages 1160.
Crossref
Cristobal Garcia Garcia, Sai S. Patkar, Bin Wang, Ramadan Abouomar & Kristi L. Kiick. (2023) Recombinant protein-based injectable materials for biomedical applications. Advanced Drug Delivery Reviews 193, pages 114673.
Crossref
Nada A. Haq-Siddiqi, Dustin Britton & Jin Kim Montclare. (2023) Protein-engineered biomaterials for cartilage therapeutics and repair. Advanced Drug Delivery Reviews 192, pages 114647.
Crossref
Constancio Gonzalez-Obeso, Emily Jane Hartzell, Ryan Albert Scheel & David L. Kaplan. (2023) Delivering on the promise of recombinant silk-inspired proteins for drug delivery. Advanced Drug Delivery Reviews 192, pages 114622.
Crossref
Elena García-Gareta. 2023. Handbook of the Extracellular Matrix. Handbook of the Extracellular Matrix 1 28 .
Marisa O. Pacheco, Lauren E. Eccles, Nickolas A. Davies, Jostin Armada, Alaura S. Cakley, Isiri P. Kadambi & Whitney L. Stoppel. (2022) Progress in silk and silk fiber-inspired polymeric nanomaterials for drug delivery. Frontiers in Chemical Engineering 4.
Crossref
Ethan Griswold, Joseph Cappello & Hamidreza Ghandehari. (2022) Silk-elastinlike protein-based hydrogels for drug delivery and embolization. Advanced Drug Delivery Reviews 191, pages 114579.
Crossref
Shahid Ud Din Wani, Mohammed Iqbal Zargar, Mubashir Hussain Masoodi, Sultan Alshehri, Prawez Alam, Mohammed M. Ghoneim, Areej Alshlowi, H. G. Shivakumar, Mohammad Ali & Faiyaz Shakeel. (2022) Silk Fibroin as an Efficient Biomaterial for Drug Delivery, Gene Therapy, and Wound Healing. International Journal of Molecular Sciences 23:22, pages 14421.
Crossref
Anjali Phour, Vidit Gaur, Ahana Banerjee & Jayanta Bhattacharyya. (2022) Recombinant protein polymers as carriers of chemotherapeutic agents. Advanced Drug Delivery Reviews 190, pages 114544.
Crossref
Yirui Li & Julie A. Champion. (2022) Self-assembling nanocarriers from engineered proteins: Design, functionalization, and application for drug delivery. Advanced Drug Delivery Reviews 189, pages 114462.
Crossref
Sakineh Hajebi, Satar Yousefiasl, Ilnaz Rahimmanesh, Alireza Dahim, Sepideh Ahmadi, Firoz Babu Kadumudi, Nikta Rahgozar, Sanaz Amani, Arun Kumar, Ehsan Kamrani, Mohammad Rabiee, Assunta Borzacchiello, Xiangdong Wang, Navid Rabiee, Alireza Dolatshahi‐Pirouz & Pooyan Makvandi. (2022) Genetically Engineered Viral Vectors and Organic‐Based Non‐Viral Nanocarriers for Drug Delivery Applications. Advanced Healthcare Materials 11:20.
Crossref
Sara Aly Attia & J. Andrew MacKay. (2022) Protein and polypeptide mediated delivery to the eye. Advanced Drug Delivery Reviews 188, pages 114441.
Crossref
Haoyuan Shi, Ting Ji, Chenxi Zhai, Junting Lu, Wenwen Huang & Jingjie Yeo. (2022) Thermo- and ion-responsive silk-elastin-like proteins and their multiscale mechanisms. Journal of Materials Chemistry B 10:32, pages 6133-6142.
Crossref
Thomas Falcucci, Kayla F. Presley, Jaewon Choi, Vincent Fizpatrick, Jonah Barry, Jugal Kishore Sahoo, Jack T. Ly, Tod A. Grusenmeyer, Matthew J. Dalton & David L. Kaplan. (2022) Degradable Silk‐Based Subcutaneous Oxygen Sensors. Advanced Functional Materials 32:27.
Crossref
Dagan Hadar, Daniela S. Strugach & Miriam Amiram. (2022) Conjugates of Recombinant Protein‐Based Polymers: Combining Precision with Chemical Diversity. Advanced NanoBiomed Research 2:6.
Crossref
Xinchen Shen, Haoyuan Shi, Hongda Wei, Boxuan Wu, Qingyuan Xia, Jingjie Yeo & Wenwen Huang. (2022) Engineering Natural and Recombinant Silks for Sustainable Biodevices. Frontiers in Chemistry 10.
Crossref
Constancio Gonzalez-Obeso, Fredrik G. Backlund & David L. Kaplan. (2022) Charge-Modulated Accessibility of Tyrosine Residues for Silk-Elastin Copolymer Cross-Linking. Biomacromolecules 23:3, pages 760-765.
Crossref
Giulia Guidetti, Luciana d'Amone, Taehoon Kim, Giusy Matzeu, Laia Mogas-Soldevila, Bradley Napier, Nicholas Ostrovsky-Snider, Jeffery Roshko, Elisabetta Ruggeri & Fiorenzo G. Omenetto. (2022) Silk materials at the convergence of science, sustainability, healthcare, and technology. Applied Physics Reviews 9:1.
Crossref
Vincent P. Gray, Connor D. Amelung, Israt Jahan Duti, Emma G. Laudermilch, Rachel A. Letteri & Kyle J. Lampe. (2022) Biomaterials via peptide assembly: Design, characterization, and application in tissue engineering. Acta Biomaterialia 140, pages 43-75.
Crossref
Mohammad Hossein Khosropanah, Mahdi Alizadeh Vaghasloo, Mehdi Shakibaei, Anna‐Lena Mueller, Abdol‐Mohammad Kajbafzadeh, Leila Amani, Ismaeil Haririan, Ashkan Azimzadeh, Zahra Hassannejad & Masoumeh Majidi Zolbin. (2021) Biomedical applications of silkworm ( Bombyx Mori ) proteins in regenerative medicine (a narrative review) . Journal of Tissue Engineering and Regenerative Medicine 16:2, pages 91-109.
Crossref
Stanley Chu, Andrew L Wang, Aparajita Bhattacharya & Jin Kim Montclare. (2021) Protein based biomaterials for therapeutic and diagnostic applications. Progress in Biomedical Engineering 4:1, pages 012003.
Crossref
Isha Bhorkar & Abhishek S. Dhoble. (2021) Advances in the synthesis and application of self-assembling biomaterials. Progress in Biophysics and Molecular Biology 167, pages 46-62.
Crossref
Julie F. Jameson, Marisa O. Pacheco, Henry H. Nguyen, Edward A. Phelps & Whitney L. Stoppel. (2021) Recent Advances in Natural Materials for Corneal Tissue Engineering. Bioengineering 8:11, pages 161.
Crossref
Irene C. Jenkins, Joshua J. Milligan & Ashutosh Chilkoti. (2021) Genetically Encoded Elastin‐Like Polypeptides for Drug Delivery. Advanced Healthcare Materials 10:13.
Crossref
Om Prakash Narayan. (2021) Molecular basis of light-responsive dynamically tunable biomaterials in biomedical engineering. Biochemical Engineering Journal, pages 108090.
Crossref
Matthew J. Webber & E. Thomas Pashuck. (2021) (Macro)molecular self-assembly for hydrogel drug delivery. Advanced Drug Delivery Reviews 172, pages 275-295.
Crossref
Dayananda Kasala, JinWoo Hong & Chae-Ok Yun. (2021) Overcoming the barriers to optimization of adenovirus delivery using biomaterials: Current status and future perspective. Journal of Controlled Release 332, pages 285-300.
Crossref
Om Prakash Narayan, Xuan Mu, Onur Hasturk & David L. Kaplan. (2021) Dynamically tunable light responsive silk-elastin-like proteins. Acta Biomaterialia 121, pages 214-223.
Crossref
Frederick W. Keeley. 2021. Encyclopedia of Biological Chemistry III. Encyclopedia of Biological Chemistry III 668 689 .
Changrim Lee, Minchang Choi & J. Andrew MacKay. (2020) Live long and active: Polypeptide-mediated assembly of antibody variable fragments. Advanced Drug Delivery Reviews 167, pages 1-18.
Crossref
Sergio Acosta, Luis Quintanilla‐Sierra, Lubinda Mbundi, Virginia Reboto & José Carlos Rodríguez‐Cabello. (2020) Elastin‐Like Recombinamers: Deconstructing and Recapitulating the Functionality of Extracellular Matrix Proteins Using Recombinant Protein Polymers. Advanced Functional Materials 30:44, pages 1909050.
Crossref
Marziyeh Fathi, Elaheh Dalir Abdolahinia, Jaleh Barar & Yadollah Omidi. (2020) Smart stimuli-responsive biopolymeric nanomedicines for targeted therapy of solid tumors. Nanomedicine 15:22, pages 2171-2200.
Crossref
Dingpei Long, Bo Xiao & Didier Merlin. (2020) Genetically modified silk fibroin nanoparticles for drug delivery: preparation strategies and application prospects. Nanomedicine 15:18, pages 1739-1742.
Crossref
Evangelos Georgilis, Mona Abdelghani, Jan Pille, Esra Aydinlioglu, Jan C.M. van Hest, Sébastien Lecommandoux & Elisabeth Garanger. (2020) Nanoparticles based on natural, engineered or synthetic proteins and polypeptides for drug delivery applications. International Journal of Pharmaceutics 586, pages 119537.
Crossref
Arturo Ibáñez‐Fonseca, Doriana Orbanic, Francisco Javier Arias, Matilde Alonso, Dimitrios I. Zeugolis & José Carlos Rodríguez‐Cabello. (2020) Influence of the Thermodynamic and Kinetic Control of Self‐Assembly on the Microstructure Evolution of Silk‐Elastin‐Like Recombinamer Hydrogels. Small 16:28.
Crossref
Anastasia K. VarankoJonathan C. SuAshutosh Chilkoti. (2020) Elastin-Like Polypeptides for Biomedical Applications. Annual Review of Biomedical Engineering 22:1, pages 343-369.
Crossref
Diane Umuhoza, Fang Yang, Dingpei Long, Zhanzhang Hao, Jing Dai & Aichun Zhao. (2020) Strategies for Tuning the Biodegradation of Silk Fibroin-Based Materials for Tissue Engineering Applications. ACS Biomaterials Science & Engineering 6:3, pages 1290-1310.
Crossref
Qingyun Wen, Suzanne M. Mithieux & Anthony S. Weiss. (2020) Elastin Biomaterials in Dermal Repair. Trends in Biotechnology 38:3, pages 280-291.
Crossref
Paula Schiapparelli, Pengcheng Zhang, Montserrat Lara-Velazquez, Hugo Guerrero-Cazares, Ran Lin, Hao Su, Rami W. Chakroun, Miguel Tusa, Alfredo Quiñones-Hinojosa & Honggang Cui. (2020) Self-assembling and self-formulating prodrug hydrogelator extends survival in a glioblastoma resection and recurrence model. Journal of Controlled Release 319, pages 311-321.
Crossref
Dimple Chouhan & Biman B. Mandal. (2020) Silk biomaterials in wound healing and skin regeneration therapeutics: From bench to bedside. Acta Biomaterialia 103, pages 24-51.
Crossref
Mercedes Santos, Sofía Serrano-Dúcar, Juan González-Valdivieso, Reinaldo Vallejo, Alessandra Girotti, Purificación Cuadrado & Francisco Javier Arias. (2020) Genetically Engineered Elastin-based Biomaterials for Biomedical Applications. Current Medicinal Chemistry 26:40, pages 7117-7146.
Crossref
Laura Chambre, Zaira Martín-Moldes, Rachael N. Parker & David L. Kaplan. (2020) Bioengineered elastin- and silk-biomaterials for drug and gene delivery. Advanced Drug Delivery Reviews 160, pages 186-198.
Crossref
Anastasia Varanko, Soumen Saha & Ashutosh Chilkoti. (2020) Recent trends in protein and peptide-based biomaterials for advanced drug delivery. Advanced Drug Delivery Reviews 156, pages 133-187.
Crossref
Anna Tarakanova, Davoud Ebrahimi, Zhao Qin & Markus J. Buehler. 2020. Handbook of Materials Modeling. Handbook of Materials Modeling 1547 1574 .
Ayae Sugawara-Narutaki, Sawako Yasunaga, Yusuke Sugioka, Duc H. T. Le, Issei Kitamura, Jin Nakamura & Chikara Ohtsuki. (2019) Rheology of Dispersions of High-Aspect-Ratio Nanofibers Assembled from Elastin-Like Double-Hydrophobic Polypeptides. International Journal of Molecular Sciences 20:24, pages 6262.
Crossref
Merisa Saric & Thomas Scheibel. (2019) Engineering of silk proteins for materials applications. Current Opinion in Biotechnology 60, pages 213-220.
Crossref
Thang Phan Nguyen, Quang Vinh Nguyen, Van-Huy Nguyen, Thu-Ha Le, Vu Quynh Nga Huynh, Dai-Viet N. Vo, Quang Thang Trinh, Soo Young Kim & Quyet Van Le. (2019) Silk Fibroin-Based Biomaterials for Biomedical Applications: A Review. Polymers 11:12, pages 1933.
Crossref
Brindha J., Balamurali M. M. & Kaushik Chanda. (2019) Evolutionary approaches in protein engineering towards biomaterial construction. RSC Advances 9:60, pages 34720-34734.
Crossref
Marc W.T. Werten, Gerrit Eggink, Martien A. Cohen Stuart & Frits A. de Wolf. (2019) Production of protein-based polymers in Pichia pastoris. Biotechnology Advances 37:5, pages 642-666.
Crossref
Durga Dharmadana, Nicholas P. Reynolds, Charlotte E. Conn & Céline Valéry. (2019) pH-Dependent Self-Assembly of Human Neuropeptide Hormone GnRH into Functional Amyloid Nanofibrils and Hexagonal Phases. ACS Applied Bio Materials 2:8, pages 3601-3606.
Crossref
Gerald F. Audette, Ayat Yaseen, Nicholas Bragagnolo & Raj Bawa. (2019) Protein Nanotubes: From Bionanotech towards Medical Applications. Biomedicines 7:2, pages 46.
Crossref
Brindha J.Kaushik Chanda & Balamurali M.M.. (2019) Revisiting the insights and applications of protein engineered hydrogels. Materials Science and Engineering: C 95, pages 312-327.
Crossref
Pamela Krug, Marta Bartel, Paulina Głowala, Barbara Wysocka, Ilona Mojzych, Marta Kwiatkowska, Aleksandra Skiba, Agata Wójtowicz & Maciej Mazur. 2019. Materials for Biomedical Engineering. Materials for Biomedical Engineering 59 111 .
Ligia N.M. Ribeiro, Ana C.S. Alcantara, Michelle Franz-Montan, Veronica M. Couto, Silvia V.G. Nista & Eneida de Paula. 2019. Biomedical Applications of Nanoparticles. Biomedical Applications of Nanoparticles 341 374 .
Israel Gonzalez de Torre, Carmen García-Arévalo, Matilde Alonso & José Carlos Rodríguez Cabello. 2019. Smart Polymers and their Applications. Smart Polymers and their Applications 323 377 .
Reda M. Felfel, Dhanak Gupta, Adi Z. Zabidi, Amy Prosser, Colin A. Scotchford, Virginie Sottile & David M. Grant. (2018) Performance of multiphase scaffolds for bone repair based on two-photon polymerized poly(d,l-lactide-co-ɛ-caprolactone), recombinamers hydrogel and nano-HA. Materials & Design 160, pages 455-467.
Crossref
Erin G. Roberts, Nae‐Gyune Rim, Wenwen Huang, Anna Tarakanova, Jingjie Yeo, Markus J. Buehler, David L. Kaplan & Joyce Y. Wong. (2018) Fabrication and Characterization of Recombinant Silk‐Elastin‐Like‐Protein (SELP) Fiber. Macromolecular Bioscience 18:12.
Crossref
Adrián Magaz, Alessandro Faroni, Julie E. Gough, Adam J. Reid, Xu Li & Jonny J. Blaker. (2018) Bioactive Silk‐Based Nerve Guidance Conduits for Augmenting Peripheral Nerve Repair. Advanced Healthcare Materials 7:23.
Crossref
Jihyun Yoon, Ho‐Sung Yang, Byoung‐Sun Lee & Woong‐Ryeol Yu. (2018) Recent Progress in Coaxial Electrospinning: New Parameters, Various Structures, and Wide Applications. Advanced Materials 30:42.
Crossref
Biplab Sarkar, Peter K. Nguyen, William Gao, Akhil Dondapati, Zain Siddiqui & Vivek A. Kumar. (2018) Angiogenic Self-Assembling Peptide Scaffolds for Functional Tissue Regeneration. Biomacromolecules 19:9, pages 3597-3611.
Crossref
Jingjie Yeo, Gang Seob Jung, Francisco J Martín-Martínez, Shengjie Ling, Grace X Gu, Zhao Qin & Markus J Buehler. (2018) Materials-by-design: computation, synthesis, and characterization from atoms to structures. Physica Scripta 93:5, pages 053003.
Crossref
Garry Laverty. (2018) Peptide nanomaterials as future antimicrobial technologies. Future Microbiology 13:1, pages 5-7.
Crossref
Wenwen Huang, Shengjie Ling, Chunmei Li, Fiorenzo G. Omenetto & David L. Kaplan. (2018) Silkworm silk-based materials and devices generated using bio-nanotechnology. Chemical Society Reviews 47:17, pages 6486-6504.
Crossref
Soon Mo Choi, Prerna Chaudhry, Sun Mi Zo & Sung Soo Han. 2018. Cutting-Edge Enabling Technologies for Regenerative Medicine. Cutting-Edge Enabling Technologies for Regenerative Medicine 161 210 .
Anna Tarakanova, Davoud Ebrahimi, Zhao Qin & Markus J. Buehler. 2018. Handbook of Materials Modeling. Handbook of Materials Modeling 1 28 .
Kyle J. Isaacson, Mark Martin Jensen, Alexandre H. Watanabe, Bryant E. Green, Marcelo A. Correa, Joseph Cappello & Hamidreza Ghandehari. (2017) Self‐Assembly of Thermoresponsive Recombinant Silk‐Elastinlike Nanogels. Macromolecular Bioscience 18:1.
Crossref
Tomasz Deptuch & Hanna Dams-Kozlowska. (2017) Silk Materials Functionalized via Genetic Engineering for Biomedical Applications. Materials 10:12, pages 1417.
Crossref
Anna Tarakanova, Wenwen Huang, Zhao Qin, David L. Kaplan & Markus J. Buehler. (2017) Modeling and Experiment Reveal Structure and Nanomechanics across the Inverse Temperature Transition in B. mori Silk-Elastin-like Protein Polymers . ACS Biomaterials Science & Engineering 3:11, pages 2889-2899.
Crossref
Heike M. Herold & Thomas Scheibel. (2017) Applicability of biotechnologically produced insect silks. Zeitschrift für Naturforschung C 72:9-10, pages 365-385.
Crossref
Tianzhi Luo, Michael A. David, Lucas C. Dunshee, Rebecca A. Scott, Morgan A. Urello, Christopher Price & Kristi L. Kiick. (2017) Thermoresponsive Elastin- b -Collagen-Like Peptide Bioconjugate Nanovesicles for Targeted Drug Delivery to Collagen-Containing Matrices . Biomacromolecules 18:8, pages 2539-2551.
Crossref
Kyle J. Isaacson, M. Martin Jensen, Nithya B. Subrahmanyam & Hamidreza Ghandehari. (2017) Matrix-metalloproteinases as targets for controlled delivery in cancer: An analysis of upregulation and expression. Journal of Controlled Release 259, pages 62-75.
Crossref
Erik R. Johnston, Tyler N. Smith & Monica A. Serban. (2017) Nanoparticulate Poly(glucaramide)-Based Hydrogels for Controlled Release Applications. Gels 3:2, pages 17.
Crossref
Wenwen Huang, Sreevidhya Krishnaji, Olena Rabotyagova Tokareva, David Kaplan & Peggy Cebe. (2017) Tunable crystallization, degradation, and self-assembly of recombinant protein block copolymers. Polymer 117, pages 107-116.
Crossref
Wenwen Huang, Davoud Ebrahimi, Nina Dinjaski, Anna Tarakanova, Markus J. Buehler, Joyce Y. Wong & David L. Kaplan. (2017) Synergistic Integration of Experimental and Simulation Approaches for the de Novo Design of Silk-Based Materials . Accounts of Chemical Research 50:4, pages 866-876.
Crossref
Liang Chen, Ming-Liang Zhou, Zhi-Gang Qian, David L. Kaplan & Xiao-Xia Xia. (2017) Fabrication of Protein Films from Genetically Engineered Silk-Elastin-Like Proteins by Controlled Cross-Linking. ACS Biomaterials Science & Engineering 3:3, pages 335-341.
Crossref
W.L. Stoppel, N. Raia, E. Kimmerling, S. Wang, C.E. Ghezzi & D.L. Kaplan. 2017. Comprehensive Biomaterials II. Comprehensive Biomaterials II 253 278 .
J.A.M. Ramshaw & J.A. Werkmeister. 2017. Comprehensive Biomaterials II. Comprehensive Biomaterials II 512 531 .
Lucimara G. de La Torre, Caroline C. Sipoli, Aline F. Oliveira, Ismail Eş, Amanda C.S.N. Pessoa, Micaela T. Vitor, Franciele F. Vit & Thays F. Naves. 2017. Biopolymer-Based Composites. Biopolymer-Based Composites 289 323 .
Mário Barroca, Paulo Rodrigues, Rómulo Sobral, M. Manuela R. Costa, Susana R. Chaves, Raul Machado, Margarida Casal & Tony Collins. (2016) Antibiotic free selection for the high level biosynthesis of a silk-elastin-like protein. Scientific Reports 6:1.
Crossref
Francisco Javier, Sergio Acosta-Rodríguez, Tatjana Flora & Sofía Serrano-Dúcar. 2016. Biopolymers for Medical Applications. Biopolymers for Medical Applications 183 212 .
Michael Floren, Claudio Migliaresi & Antonella Motta. (2016) Processing Techniques and Applications of Silk Hydrogels in Bioengineering. Journal of Functional Biomaterials 7:3, pages 26.
Crossref
Dayananda Kasala, A-Rum Yoon, Jinwoo Hong, Sung Wan Kim & Chae-Ok Yun. (2016) Evolving lessons on nanomaterial-coated viral vectors for local and systemic gene therapy. Nanomedicine 11:13, pages 1689-1713.
Crossref
Małgorzata A. Wronska, Iain B. O'Connor, Maura A. Tilbury, Akshay Srivastava & J. Gerard Wall. (2016) Adding Functions to Biomaterial Surfaces through Protein Incorporation. Advanced Materials 28:27, pages 5485-5508.
Crossref
Nina Dinjaski & David L Kaplan. (2016) Recombinant protein blends: silk beyond natural design. Current Opinion in Biotechnology 39, pages 1-7.
Crossref
Wenwen Huang, Anna Tarakanova, Nina Dinjaski, Qin Wang, Xiaoxia Xia, Ying Chen, Joyce Y. Wong, Markus J. Buehler & David L. Kaplan. (2016) Design of Multistimuli Responsive Hydrogels Using Integrated Modeling and Genetically Engineered Silk–Elastin‐Like Proteins. Advanced Functional Materials 26:23, pages 4113-4123.
Crossref
Jingxin Zhu, Wenwen Huang, Qiang Zhang, Shengjie Ling, Ying Chen & David Kaplan. (2016) Aqueous-Based Coaxial Electrospinning of Genetically Engineered Silk Elastin Core-Shell Nanofibers. Materials 9:4, pages 221.
Crossref
Fa-Ming Chen & Xiaohua Liu. (2016) Advancing biomaterials of human origin for tissue engineering. Progress in Polymer Science 53, pages 86-168.
Crossref
José Carlos Rodríguez-Cabello, Francisco Javier Arias, Matilde Alonso Rodrigo & Alessandra Girotti. (2016) Elastin-like polypeptides in drug delivery. Advanced Drug Delivery Reviews 97, pages 85-100.
Crossref
Sonia Kapoor & Subhas C. Kundu. (2016) Silk protein-based hydrogels: Promising advanced materials for biomedical applications. Acta Biomaterialia 31, pages 17-32.
Crossref
Katelyn Nagy-Smith, Yuji Yamada & Joel P. Schneider. (2016) Protein release from highly charged peptide hydrogel networks. Journal of Materials Chemistry B 4:11, pages 1999-2007.
Crossref
Kiersten M. Ruff, Tyler S. Harmon & Rohit V. Pappu. (2015) CAMELOT: A machine learning approach for coarse-grained simulations of aggregation of block-copolymeric protein sequences. The Journal of Chemical Physics 143:24.
Crossref
Adrian B. Li, Jonathan A. Kluge, Nicholas A. Guziewicz, Fiorenzo G. Omenetto & David L. Kaplan. (2015) Silk-based stabilization of biomacromolecules. Journal of Controlled Release 219, pages 416-430.
Crossref
Tuli Dey, Banani Kundu, Debanjana Deb, Tanmaya Pathak & Subhas C. Kundu. (2015) Cytotoxicity and sustained release of modified divinylsulfone from silk based 3D construct. Journal of Materials Science: Materials in Medicine 26:11.
Crossref
Ahmad Mohammed Gumel, Mohamad Suffian Mohamad Annuar & Hindatu Yusuf. (2015) Perspectives on the Emerging Applications of Multifaceted Biomedical Polymeric Nanomaterials. Journal of Nanomaterials 2015, pages 1-22.
Crossref

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