Mechanical strain enhances survivability of collagen micronetworks in the presence of collagenase: implications for load-bearing matrix growth and stability - sprookjes - yvandenbroek - TriplyDB

Mechanical strain enhances survivability of collagen micronetworks in the presence of collagenase: implications for load-bearing matrix growth and stability

Mechanical strain enhances survivability of collagen micronetworks in the presence of collagenase: implications for load-bearing matrix growth and stability

http://www.wikidata.org/entity/Q33834797

about

A new paradigm for mechanobiological mechanisms in tumor metastasis Internal strain drives spontaneous periodic buckling in collagen and regulates remodeling.Mechanical strain stabilizes reconstituted collagen fibrils against enzymatic degradation by mammalian collagenase matrix metalloproteinase 8 (MMP-8)The effect of static stretch on elastin degradation in arteries Regional mechanics determine collagen fiber structure in healing myocardial infarcts.Material properties of the posterior human sclera.Simulated remodeling of loaded collagen networks via strain-dependent enzymatic degradation and constant-rate fiber growth.Small-angle light scattering to detect strain-directed collagen degradation in native tissue.Molecular mechanochemistry: low force switch slows enzymatic cleavage of human type I collagen monomer.Mechanical load induces a 100-fold increase in the rate of collagen proteolysis by MMP-1.Perspectives on biomechanical growth and remodeling mechanisms in glaucoma().Cell-matrix interaction during strain-dependent remodelling of simulated collagen networks Collagen network strengthening following cyclic tensile loading Micromechanical Modeling Study of Mechanical Inhibition of Enzymatic Degradation of Collagen Tissues.Mechanical Forces Accelerate Collagen Digestion by Bacterial Collagenase in Lung Tissue Strips.Multiscale mechanobiology of de novo bone generation, remodeling and adaptation of autograft in a common ovine femur model.The role of mechanical loading in tendon development, maintenance, injury, and repair Molecular crowding of collagen: a pathway to produce highly-organized collagenous structures Structural remodeling and mechanical function in heart failure.Conformational dynamics accompanying the proteolytic degradation of trimeric collagen I by collagenases.Flow-Induced Crystallization of Collagen: A Potentially Critical Mechanism in Early Tissue Formation.Growth Description for Vessel Wall Adaptation: A Thick-Walled Mixture Model of Abdominal Aortic Aneurysm Evolution.Highly sensitive single-fibril erosion assay demonstrates mechanochemical switch in native collagen fibrils.Lamina Cribrosa Thickening in Early Glaucoma Predicted by a Microstructure Motivated Growth and Remodeling Approach.Chain registry and load-dependent conformational dynamics of collagen Strain-induced tissue growth laws: applications to embryonic cardiovascular development.Probing collagen/enzyme mechanochemistry in native tissue with dynamic, enzyme-induced creep.A model of strain-dependent glomerular basement membrane maintenance and its potential ramifications in health and disease.Biaxial stress relaxation of semilunar heart valve leaflets during simulated collagen catabolism: Effects of collagenase concentration and equibiaxial strain state.A physically motivated constitutive model for cell-mediated compaction and collagen remodeling in soft tissues.Non-enzymatic cross-linking of collagen type II fibrils is tuned via osmolality switch.Efficient computational simulation of actin stress fiber remodeling.A biochemo-mechano coupled, computational model combining membrane transport and pericellular proteolysis in tissue mechanics.Fluid-structure interaction simulations of cerebral arteries modeled by isotropic and anisotropic constitutive laws Biomaterials in Tendon and Skeletal Muscle Tissue Engineering: Current Trends and Challenges Assessment of Corneal Stromal Remodeling and Regeneration after Photorefractive Keratectomy Modeling the impact of scaffold architecture and mechanical loading on collagen turnover in engineered cardiovascular tissues.

P2860

Q27024486-D162F313-7529-4A31-B291-EDD19AD49D57 Q27316850-D6DD6D13-CBE8-488F-9619-736DD20F1B25 Q27320999-E59CE779-7A56-40D9-B6BB-E4DC4C8C56DB Q28537575-08365CA8-6797-4A57-BA92-363FD204B69E Q30419624-64F14CAD-018A-4BD4-B7C9-A8512E02B8F4 Q34727782-7111157A-F8FD-4AC1-A6F0-33BAACAE577A Q35612547-27E55443-8E53-4580-9821-09FA10C6ED1E Q35683745-D633951F-C121-4B7B-BEF6-3F93DEE1BD8E Q35822098-5916194F-FB81-4382-9AEE-54F7AA57E13A Q35873741-E2A91BD1-D8A5-43D8-82AB-FE4FB65B113B Q36350237-0B321F50-ABEB-4B17-B0B9-993ACFAC573E Q36390740-D45733C6-1283-4A4A-B12B-4D0A6C777D17 Q36390754-D6F78346-A05D-4B45-941A-BAC0E2ACE9CB Q36429555-2722858F-CA03-404B-ACF0-50E350C2D3FC Q37083883-A1D2A476-BA90-4CBD-92D3-C33F0B05EC6E Q37092342-A80C9EC9-74F7-49A1-A3EF-673F43D4DD35 Q37109498-B154771B-7664-41E6-B6B4-8ACA156FCA61 Q37131796-936D1753-B2FE-4B7A-AB3B-5AC20F00FAF5 Q37977013-BF32A98F-9C78-4E13-96BD-79A5B3D1EA00 Q39224629-30067603-9931-4228-A1C8-A0566CA6A037 Q39857095-A2FC9A30-6CFF-4008-AD9F-769D1C5E69E7 Q41676112-F73C5942-CD57-4EF7-8027-D7203893CFFB Q41899545-E4EC2F73-FB6F-43C3-8397-C2B2C1EBA668 Q42100525-089DB2B9-3BDB-44CB-8F32-EAE775CCF82C Q42176353-FCAB369E-A0F6-4B9B-8E64-82240FF8B692 Q42938716-7A907B63-868A-4FC6-A358-7C06BDCF12A1 Q43090809-DF9C73B0-28E0-4950-9243-EB0DEECBE20D Q44267962-DBD78542-741C-4EE4-8E30-CEF61098CA75 Q44859896-5D952E38-3F94-455E-851D-CD1D86D471E4 Q46446554-E2B14F2E-3E35-40C0-A0B0-FF410E06A3A5 Q50046822-98643B49-3F88-4A05-8AB3-CDFDB79C7216 Q51542777-526A7B9F-3C57-4C81-AEED-FB56160F1E5F Q53354269-96A9DA8A-92CE-4711-8D61-E76D26CA9997 Q56995849-760749AB-5C40-4A63-9A91-FD3C658901E0 Q57382973-A278809A-9061-4B14-9A50-815525728742 Q58722135-30B6CC16-3736-4F0C-8299-2CDB6726168E Q59115008-B152D86B-BB81-42DD-8337-7106BE2A85A9

P2860

Mechanical strain enhances survivability of collagen micronetworks in the presence of collagenase: implications for load-bearing matrix growth and stability

http://www.wikidata.org/entity/Q33834797

description

2009 nî lūn-bûn

@nan

2009 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած

@hyw

2009 թվականի սեպտեմբերին հրատարակված գիտական հոդված

@hy

2009年の論文

@ja

2009年論文

@yue

2009年論文

@zh-hant

2009年論文

@zh-hk

2009年論文

@zh-mo

2009年論文

@zh-tw

2009年论文

@wuu

name

Mechanical strain enhances sur ...... ng matrix growth and stability

@ast

Mechanical strain enhances sur ...... ng matrix growth and stability

@en

type

label

Mechanical strain enhances sur ...... ng matrix growth and stability

@ast

Mechanical strain enhances sur ...... ng matrix growth and stability

@en

prefLabel

Mechanical strain enhances sur ...... ng matrix growth and stability

@ast

Mechanical strain enhances sur ...... ng matrix growth and stability

@en

P1433

Q33834797-D5C62FB3-7DFA-4045-BFAB-FD797DB78BE3

P1476

Q33834797-58850836-381E-44B0-88BE-74D03E381EC5

P2093

Q33834797-1F24ACCE-BE43-42B4-AC5F-D4B4BDFD1250

Q33834797-54A35221-4771-4540-A0B4-5E798B11602D

Q33834797-6A0EB764-9CBF-4E3B-91BE-92F82C4BA9F0

Q33834797-73D0C0B8-A27B-4E3D-96FB-ECE62F942A3A

Q33834797-8E4E4CD6-F785-464E-A13C-CA84574C9DBE

Q33834797-9CA3BECB-968B-4CA3-AEC9-690DA896C8CD

P2860

Q33834797-032D48D9-9BD9-4A87-8E14-D9DF6D37961B

Q33834797-03B52186-8837-4D19-9866-D4E3EB1238BA

Q33834797-08FF781B-8043-42BA-8E80-5F6A70E0E3EF

Q33834797-0F811E1E-B0DF-48C3-9A35-CFD69816F809

Q33834797-24BA3DCC-5B40-4B2B-9970-935457763C7E

Q33834797-2848E7CF-C194-4C9A-A8C6-A40C8B55BFC8

Q33834797-33DADB07-562B-4319-91BD-6DFFBBF1B5CF

Q33834797-386ADE1C-A2D3-465E-B847-AC80C99B474F

Q33834797-5471330F-E55F-4268-A7F4-4D5418D0A3DA

Q33834797-5545C6E6-05D0-40BC-9485-C8763FC2DA9E

P304

Q33834797-2D25EF48-9959-41F1-A6A6-3C0A0DC7AE88

P31

Q33834797-729474AC-4CDE-4B4B-AF94-C7771DA7148E

P356

Q33834797-083BA88B-ECEB-42AF-8DDA-96A254781AC5

P407

Q33834797-E70AFEA4-E0F4-4650-BB45-7EF5C54D54C0

P433

Q33834797-175B0E26-6EC3-4921-85C5-7802BC18A3F6

P478

Q33834797-C6960284-C589-499F-88B2-F8A0A73FF04E

P577

Q33834797-317B043C-B40C-4A3D-B565-DC8AE0D29382

P5875

Q33834797-0D821692-8F99-43BD-83A0-3C3356509BD1

P698

Q33834797-5C49DB01-B376-4050-9297-90C354F3A6D4

P932

Q33834797-05F3EAA1-B64A-4509-80B0-7A2B0E3FA4FC

P356

P1433

Philosophical Transactions of the Royal Society A

P1476

Mechanical strain enhances sur ...... ng matrix growth and stability

@en

P2093

Amit P Bhole

http://www.w3.org/2001/XMLSchema#string

Brendan P Flynn

http://www.w3.org/2001/XMLSchema#string

Charles A Dimarzio

http://www.w3.org/2001/XMLSchema#string

Jeffrey W Ruberti

http://www.w3.org/2001/XMLSchema#string

Melody Liles

http://www.w3.org/2001/XMLSchema#string

Nima Saeidi

http://www.w3.org/2001/XMLSchema#string

P2860

Degeneration of the intervertebral disc

Evolution of collagens

A single IGF1 allele is a major determinant of small size in dogs

Corneal stromal wound healing in refractive surgery: the role of myofibroblasts.

Up-regulation of matrix metalloproteinase expression and activation following cyclical compressive loading of articular cartilage in vitro.

Regulation of cardiovascular collagen synthesis by mechanical load.

Normal and pathological adaptations of articular cartilage to joint loading.

Type I collagen is thermally unstable at body temperature

Matrix metalloproteinase activities and their relationship with collagen remodelling in tendon pathology.

Tracking kinesin-driven movements with nanometre-scale precision.

P304

3339-3362

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1098/RSTA.2009.0093

http://www.w3.org/2001/XMLSchema#string

P407

P433

1902

http://www.w3.org/2001/XMLSchema#string

P478

367

http://www.w3.org/2001/XMLSchema#string

P577

2009-09-01T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

26719179

http://www.w3.org/2001/XMLSchema#string

P698

19657003

http://www.w3.org/2001/XMLSchema#string

P932

2865878

http://www.w3.org/2001/XMLSchema#string