Physical basis of colors seen in Congo red-stained amyloid in polarized light.
about
Secretion of amyloidogenic gelsolin progressively compromises protein homeostasis leading to the intracellular aggregation of proteinsHistorical and Current Concepts of Fibrillogenesis and In vivo Amyloidogenesis: Implications of Amyloid Tissue TargetingMolecular mechanism of Thioflavin-T binding to amyloid fibrilsBinding mode of Thioflavin T and other molecular probes in the context of amyloid fibrils-current statusEvaluation of the possible transmission of BSE and scrapie to gilthead sea bream (Sparus aurata)Mass spectrometric-based proteomic analysis of amyloid neuropathy type in nerve tissue.Functional amyloid formation by Streptococcus mutans.Diagnosis and management of neuropathies associated with plasma cell dyscrasias.Insight into amyloid structure using chemical probes.Digitally reinforced hematoxylin-eosin polarization technique in diagnosis of rectal amyloidosis.MALDI-mass spectrometry imaging identifies vitronectin as a common constituent of amyloid deposits.Binding of Congo red to amyloid protofibrils of the Alzheimer Aβ(9-40) peptide probed by molecular dynamics simulations.Mutant p53 aggregates into prion-like amyloid oligomers and fibrils: implications for cancer.Application of confocal laser scanning microscopy for the diagnosis of amyloidosis.Sudomotor innervation in transthyretin amyloid neuropathy: Pathology and functional correlates.Isolation and biochemical characterization of amyloid plaques and paired helical filaments.A review of amyloid staining: methods and artifacts.Self-assembly of amphipathic β-sheet peptides: insights and applications.Influence of the electric field on supramolecular structure and properties of amyloid-specific reagent Congo redReconstituted Keratin Biomaterial with Enhanced Ductility.Amyloid beta: structure, biology and structure-based therapeutic development.Cutaneous nerve biomarkers in transthyretin familial amyloid polyneuropathy.Cross polarization compatible dialysis chip.Outer membrane protein C (OmpC) of Escherichia coli induces neurodegeneration in mice by acting as an amyloid.Quantitative colorimetric measurement of cellulose degradation under microbial culture conditions.Food eponyms in Pathology.MALDI Mass Spectrometry Imaging: A Novel Tool for the Identification and Classification of Amyloidosis.Pontamine fast scarlet 4B bifluorescence and measurements of cellulose microfibril angles.Amyloid in bone marrow smears in systemic light-chain amyloidosis.Discrepancies between descriptions and illustrations of colours in Congo red-stained amyloid, and explanation of discrepant colours.Functional Amyloid and Other Protein Fibers in the Biofilm MatrixThe Amyloid-β Peptide in Amyloid Formation Processes: Interactions with Blood Proteins and Naturally Occurring Metal Ions
P2860
Q24338969-0E470A0A-6936-4F16-A6A5-77B4A26BE781Q26744469-9C2C4AC6-1A6D-43F4-9A21-744E9CD81DD9Q28279924-A2A02EAD-1B83-4613-A2C5-526269722EF7Q28393352-8A3F4C76-6A0C-4ACD-BFFC-1408C8702FD0Q33487702-EF8B108C-85C5-44CF-9256-753145788C9EQ33715284-09D96AF5-B067-4207-9796-3FEAA11E39A2Q33852480-121C6B27-308F-45FB-8481-92C57C42C187Q34555067-1543B8E2-D900-412F-BF04-183BEC297727Q34990429-6C8C1783-A0C6-4691-98A8-2D604C5F84E1Q35069472-B11A5711-FAFD-4E57-994A-EF868D3E364AQ35671535-75BB5594-FFF1-414C-AC9A-0FCCEFAC7852Q36150722-6F601C53-DAB9-46D7-870C-B89D6E5D98B3Q36201740-658B0393-ABB1-4845-BC11-A89076BFA002Q36285865-549F6D38-81C1-4DFD-ADA3-568B9A1D0FB0Q37279325-0BAAEA8A-9D56-4C74-A3B6-E2F4DF92A21BQ37476123-5BA54B4A-13C7-4F67-84AE-75ABF12A8066Q37739455-F2A79326-88EF-4F03-8709-3516586DE6F5Q38025335-C30B06A6-B97B-4E96-82C3-6669BC3EE117Q38575995-E758F258-59BD-44C0-9A5D-3D6537AB7DAFQ38631939-BBDE81E2-EB58-4357-A961-11F911C12FDCQ39437881-79F1988D-AC23-4C40-8F16-E99FF43DFB84Q40166313-29164D6A-9AB6-4585-82E8-DB83CCDE3B94Q42201060-26F49EA6-8A1B-4C16-B637-E168691BC5FCQ46529840-B999B28F-C8B6-436F-BB53-071BDC9CC543Q46985897-4E9858F2-1518-4657-9614-3361DACA3810Q47106456-B5A16106-89CB-4310-B4EB-A5AA58D9BC06Q47121762-ECAC3D41-596A-4CC4-86C9-09D868248EBEQ48217205-86D2F837-4F2F-444B-81FC-8CEEF4DBCE6EQ50209795-127B4825-4111-4482-8C6D-6EB8726A9074Q50440884-B2AF9839-A7C0-4FF1-8B2D-759AFACF15ECQ57279401-222D2CBF-F60B-4764-BC67-F24DC25A59A5Q58486506-4A0F9BC7-0E66-4FDA-807F-A3C15E0A8A08
P2860
Physical basis of colors seen in Congo red-stained amyloid in polarized light.
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年学术文章
@wuu
2007年学术文章
@zh
2007年学术文章
@zh-cn
2007年学术文章
@zh-hans
2007年学术文章
@zh-my
2007年学术文章
@zh-sg
2007年學術文章
@yue
2007年學術文章
@zh-hant
name
Physical basis of colors seen in Congo red-stained amyloid in polarized light.
@en
Physical basis of colors seen in Congo red-stained amyloid in polarized light.
@nl
type
label
Physical basis of colors seen in Congo red-stained amyloid in polarized light.
@en
Physical basis of colors seen in Congo red-stained amyloid in polarized light.
@nl
prefLabel
Physical basis of colors seen in Congo red-stained amyloid in polarized light.
@en
Physical basis of colors seen in Congo red-stained amyloid in polarized light.
@nl
P2093
P2860
P1476
Physical basis of colors seen in Congo red-stained amyloid in polarized light.
@en
P2093
Adrian P Jones
Alexander J Howie
Daniel Howell
Douglas B Brewer
P2860
P2888
P304
P356
10.1038/LABINVEST.3700714
P577
2007-12-31T00:00:00Z