Recombinant spider silk proteins for applications in biomaterials.
about
Structural characterization of minor ampullate spidroin domains and their distinct roles in fibroin solubility and fiber formationIn planta production of ELPylated spidroin-based proteins results in non-cytotoxic biopolymers.Synthetic spider silk production on a laboratory scale.Multi-tissue transcriptomics of the black widow spider reveals expansions, co-options, and functional processes of the silk gland gene toolkitSilk as an innovative biomaterial for cancer therapyProtein-based functional nanomaterial design for bioengineering applications.Natural and Genetically Engineered Proteins for Tissue Engineering.Self-Assembled Proteins and Peptides as Scaffolds for Tissue Regeneration.Biological responses to spider silk-antibiotic fusion protein.Comparative immunogenicity and structural analysis of epitopes of different bacterial L-asparaginasesUnraveling A Trap-and-Trigger Mechanism in the pH-Sensitive Self-Assembly of Spider Silk ProteinsResilin-PEG Hybrid Hydrogels Yield Degradable Elastomeric Scaffolds with Heterogeneous MicrostructureThe method of purifying bioengineered spider silk determines the silk sphere properties.Silk-Its Mysteries, How It Is Made, and How It Is UsedStructure-function-property-design interplay in biopolymers: spider silk.Invited review current progress and limitations of spider silk for biomedical applications.Controlled release from recombinant polymersFunctionalized bioengineered spider silk spheres improve nuclease resistance and activity of oligonucleotide therapeutics providing a strategy for cancer treatment.Evolutionary shifts in gene expression decoupled from gene duplication across functionally distinct spider silk glands.To spin or not to spin: spider silk fibers and more.Properties of Engineered and Fabricated Silks.Purification and cytotoxicity of tag-free bioengineered spider silk proteinsBioengineered chimeric spider silk-uranium binding proteins.Air filter devices including nonwoven meshes of electrospun recombinant spider silk proteins.Genetically engineered chimeric silk-silver binding proteins.Nanofibrillar hydrogel scaffolds from recombinant protein-based polymers with integrin- and proteoglycan-binding domains.Homo- and heteropolymer self-assembly of recombinant trichocytic keratins.Engineered spider silk protein-based composites for drug delivery.Predicting rates of in vivo degradation of recombinant spider silk proteins.Protease-Triggered, Integrin-Targeted Cellular Uptake of Recombinant Protein Micelles.Artificial egg stalks made of a recombinantly produced lacewing silk protein.In Vivo Biological Responses to Silk Proteins Functionalized with Bone SialoproteinSilk-Based BiomaterialsSpider silk inspired materials and sustainability: perspectiveIntracellular Pathways Involved in Bone Regeneration Triggered by Recombinant Silk-silica ChimerasEngineered large spider eggcase silk protein for strong artificial fibersRational Design of Spider Silk Materials Genetically Fused with an Enzyme
P2860
Q27676455-A21A5253-F0F1-4A65-B6D5-F705CB15D006Q30373888-5543C6C0-93CA-4F77-9E0D-2D9F314571E7Q30557973-918AEF08-2CF5-49B1-8FC5-CE810D66A8D5Q34354808-8E05885D-29CE-46E7-A037-A8CA4D41CDDFQ35113124-A28AF283-A202-4C67-AC2B-A37D945B1652Q35416815-B27E7EE9-AFE8-47EF-BC27-9BB57C56F72DQ35516528-2B3150FD-C14E-4E23-8B9F-53C3F86A038CQ35804917-596806AF-C0EB-49DA-B31D-05A0A0685AD3Q35910841-DF472DEC-48E3-4FF9-9F1E-B954395844B6Q35921240-2EEDA209-2FFF-4B26-9B3B-9919902F78DDQ36135335-28ED80A2-E63C-4E7A-BA94-6ABFCA2E6A14Q36849508-8433A917-F15D-4081-A1CA-4482D02B704AQ37014900-CD64E866-91C8-460C-956D-3A0B53318076Q37074986-D37B1955-2A3C-4F22-BA4E-57C6C600A694Q37589259-288584F4-5DF8-49BF-AD7C-1D7F2D61F356Q37928530-47A9D726-1D2F-4A0F-BDD9-F061F70E07E7Q38222535-C9BADC48-5D71-416A-A86E-C13FDF6B079FQ38287775-9633614E-C6C4-4C57-9E57-86926F17C58EQ38368080-9DDCA98D-9FC6-458F-B8E8-D6D57C248773Q38585350-8DC76391-A598-4BE1-9949-966F5EFFD8E5Q39094624-305D89D8-2DFC-4026-A2D3-32B20FB6D7D6Q41268752-9E4703C0-E986-4A48-8ADE-6814E608BBE0Q41826599-F2C1A32D-B9F3-488D-8F1D-70273942070AQ42130299-9EC61EA2-3411-4F6D-A02B-249C5BF6278EQ42169240-901AE0D1-5D5B-44BB-A9FB-9E8337FCCC5DQ42361302-728BA0D7-4E92-416B-BEDE-7B617BA0CBFBQ45064068-CEDF4AFC-9FCC-473A-9FA3-07495817048AQ47946708-5F694B47-A9BD-4B05-914C-B8E185D61096Q51081579-50493B47-4928-439E-8A9B-D80B40C69C2AQ51297183-72D9D291-1750-4718-B2A7-8A9316F075FBQ52737687-B4F4C3CC-4403-453E-B76E-09F26B68CF50Q57171268-8A47BB06-F9C7-4B52-85CE-488B296FE40CQ57171387-BF0F0339-5032-412F-BB77-68BC1D8AC09BQ57189700-475755AF-9802-4D45-BBF8-D3ACBA5A4FBAQ57214919-B86216DD-E936-40E6-AD71-7907B5F143ABQ57217729-A86E56BD-34F3-42CF-8363-6486CDC47A99Q57783378-FD753852-0240-4F00-91E8-E5C13F3DB466
P2860
Recombinant spider silk proteins for applications in biomaterials.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on September 2010
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Recombinant spider silk proteins for applications in biomaterials.
@en
Recombinant spider silk proteins for applications in biomaterials.
@nl
type
label
Recombinant spider silk proteins for applications in biomaterials.
@en
Recombinant spider silk proteins for applications in biomaterials.
@nl
prefLabel
Recombinant spider silk proteins for applications in biomaterials.
@en
Recombinant spider silk proteins for applications in biomaterials.
@nl
P356
P1476
Recombinant spider silk proteins for applications in biomaterials
@en
P2093
Andreas Lammel
Kristina Spiess
P304
P356
10.1002/MABI.201000071
P577
2010-09-01T00:00:00Z