about
Helical antifreeze proteins have independently evolved in fishes on four occasionsFrostbite protection in mice expressing an antifreeze glycoproteinX-ray Structure of Snow Flea Antifreeze Protein Determined by Racemic Crystallization of Synthetic Protein EnantiomersNMR characterizations of the ice binding surface of an antifreeze proteinAncient climate change, antifreeze, and the evolutionary diversification of Antarctic fishes.Coping with thermal challenges: physiological adaptations to environmental temperatures.Plants in a cold climate.Effects of a type I antifreeze protein (AFP) on the melting of frozen AFP and AFP+solute aqueous solutions studied by NMR microimaging experiment.De novo assembly and characterization of tissue specific transcriptomes in the emerald notothen, Trematomus bernacchiiNatural zwitterionic betaine enables cells to survive ultrarapid cryopreservation.Insight into the binding of antifreeze proteins to ice surfaces via 13C spin lattice relaxation solid-state NMR.Effects of supplementation with antifreeze proteins on the follicular integrity of vitrified-warmed mouse ovaries: Comparison of two types of antifreeze proteins alone and in combination.Transcriptional effects of dietary exposure of oil-contaminated Calanus finmarchicus in Atlantic herring (Clupea harengus).Threonine side chain conformational population distribution of a type I antifreeze protein on interacting with ice surface studied via ¹³C-¹⁵N dynamic REDOR NMR.Interaction of reduced nicotinamide adenine dinucleotide with an antifreeze protein from Dendroides canadensis: mechanistic implication of antifreeze activity enhancement.Heterogeneous nucleation of supercooled water, and the effect of an added catalyst.Anaplasma phagocytophilum induces Ixodes scapularis ticks to express an antifreeze glycoprotein gene that enhances their survival in the cold.Expression of Ixodes scapularis antifreeze glycoprotein enhances cold tolerance in Drosophila melanogaster.De novo transcriptome of the desert beetle Microdera punctipennis (Coleoptera: Tenebrionidae) using Illumina RNA-seq technologySynthetic polymers enable non-vitreous cellular cryopreservation by reducing ice crystal growth during thawing.Smelt was the likely beneficiary of an antifreeze gene laterally transferred between fishes.The promise and perils of Antarctic fishes. The remarkable life forms of the Southern Ocean have much to teach science about survival, but human activity is threatening their existence.Structure and function of antifreeze proteinsEffects of three different types of antifreeze proteins on mouse ovarian tissue cryopreservation and transplantation.Antifreeze proteins at the ice/water interface: three calculated discriminating properties for orientation of type I proteins.Thermodynamic Analysis of Thermal Hysteresis: Mechanistic Insights into Biological Antifreezes.Origin of antifreeze protein genes: a cool tale in molecular evolution.An Effective Antifreeze Protein Predictor with Ensemble Classifiers and Comprehensive Sequence Descriptors.Time-Lapse, in Situ Imaging of Ice Crystal Growth Using Confocal Microscopy.New insights into ice growth and melting modifications by antifreeze proteins.Long-range protein-water dynamics in hyperactive insect antifreeze proteins.Rating antifreeze proteins: Not a breezeBlocking rapid ice crystal growth through nonbasal plane adsorption of antifreeze proteinsEvidence from mixed hydrate nucleation for a funnel model of crystallization.Hofmeister effects of common monovalent salts on the beetle antifreeze protein activity.Antifreeze glycoproteins inhibit leakage from liposomes during thermotropic phase transitions.Several aspects of animal embryo cryopreservation: anti-freeze protein (AFP) as a potential cryoprotectant.Marine Antifreeze Proteins: Structure, Function, and Application to Cryopreservation as a Potential CryoprotectantStructures and ice-binding faces of the alanine-rich type I antifreeze proteins.Physiological adaptations of yeasts living in cold environments and their potential applications.
P2860
Q21132411-CD2DD0E7-BBD7-49F3-A580-4A9D5AEBB68AQ27317193-432DE084-F49D-4418-BF46-45CEC94C0AE2Q27651023-43F02C83-D8D0-4A20-9B23-F08F0F45A843Q28476637-18A5024F-8B95-4D2F-881C-F5214395D236Q28731494-170B46F0-0CAC-4499-8237-D2FCA1ECDEEAQ30431296-56F8D720-10C2-496E-9D92-1ADA8CD21BBBQ30499890-6DAA6A9D-A4FF-40AB-B2F6-E345D235E73EQ30655639-84BA467A-DC88-4D04-9F48-B922F690B95AQ30697623-E89DE12B-7A98-4237-80AE-B0EA3D6883EDQ30829347-24345CFF-62B4-45F4-89C3-64124EC66F26Q33241579-59E054B9-8038-437A-808E-1EE8FD5457C0Q33575604-2ED51E37-6A75-4D29-8962-98DB38B43BB3Q33842470-2AEE72E0-94DF-44C8-B38E-B5EBD112942CQ33864362-D2692081-956E-457B-B006-90B95FBBB60DQ34061905-7E564FB7-0245-4D37-8E8D-AC0B73D8C79AQ34074881-053F4B7A-4793-40F9-827D-7299ED376591Q34090180-95747B0A-6495-4AFB-B59E-AF093A004D0FQ34200956-64D19A59-4660-475E-9020-95B230D326EEQ34375457-456F3B50-D809-4CEA-85C3-CAB70D742368Q34401621-546DAA8F-1C0B-47FE-B5A9-D84930EFE177Q34421080-1A752AD9-4674-4793-A9E0-A736C9AD929FQ34508184-598BF069-CA6A-4084-8828-24D9C9E3467DQ34780415-C9D5B223-A8EE-42FA-BF84-5B5C0CAB6030Q35566786-C2C35538-EC99-4CC6-BA1D-2DCE42F9E504Q35940103-95CAF5C8-E1CF-48FE-9EB5-0B15A9217F13Q36100263-AE3E7C7B-0612-4CD5-855B-7D7EE52FAC5AQ36153088-950EEAB7-1DA8-46ED-9A4C-0AF0DB22203AQ36184079-4EA47085-71EF-401A-A111-7373EF515035Q36213080-90F35D9F-4FE9-4648-949F-80BA7BF10FB4Q36348469-DB622CE3-43D8-4CCF-9BE3-ACC0C3342B3FQ36583041-11EC708E-1BD3-47B6-8B57-C5E7474B4C45Q36802346-4A1AFD67-2221-4022-BF88-E89661453A14Q36802464-0A97D9DB-D79D-46D9-9D91-B3425C933FC8Q37379747-D342AC7F-74B0-41A3-9E66-AD4FEB763A2AQ37397283-8E642C77-FEDC-44A3-BB77-FD6B6D038EB1Q37546486-A0CC10E5-1A81-4D36-BBC7-9EB71EEC37C2Q37621595-E5EE4694-829C-42D2-A985-25ADF08AC034Q37678281-E01B6EA8-4173-4699-8AC4-F3A8BE76D532Q37746979-071F222B-9C5E-4F08-A6B0-0B65BD1449A1Q38544604-EF770D7E-A0C3-4489-9525-7512EB95B6CF
P2860
description
1969 nî lūn-bûn
@nan
1969 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
1969 թվականի մարտին հրատարակված գիտական հոդված
@hy
1969年の論文
@ja
1969年学术文章
@wuu
1969年学术文章
@zh-cn
1969年学术文章
@zh-hans
1969年学术文章
@zh-my
1969年学术文章
@zh-sg
1969年學術文章
@yue
name
Freezing resistance in some Antarctic fishes.
@ast
Freezing resistance in some Antarctic fishes.
@en
Freezing resistance in some Antarctic fishes.
@nl
type
label
Freezing resistance in some Antarctic fishes.
@ast
Freezing resistance in some Antarctic fishes.
@en
Freezing resistance in some Antarctic fishes.
@nl
prefLabel
Freezing resistance in some Antarctic fishes.
@ast
Freezing resistance in some Antarctic fishes.
@en
Freezing resistance in some Antarctic fishes.
@nl
P1433
P1476
Freezing resistance in some Antarctic fishes.
@en
P2093
DeVries AL
Wohlschlag DE
P304
P356
10.1126/SCIENCE.163.3871.1073
P407
P577
1969-03-01T00:00:00Z