scholarly article | Q13442814 |
P356 | DOI | 10.1042/BJ3070535 |
P8608 | Fatcat ID | release_jh6c52tw4vaydojeu4cvqavcja |
P932 | PMC publication ID | 1136681 |
P698 | PubMed publication ID | 7733894 |
P5875 | ResearchGate publication ID | 15465083 |
P50 | author | Jan Johansson | Q64030678 |
P2093 | author name string | Strömberg R | |
Curstedt T | |||
Jörnvall H | |||
Robertson B | |||
Nilsson G | |||
P2860 | cites work | Hydrophobic surfactant-associated polypeptides: SP-C is a lipopeptide with two palmitoylated cysteine residues, whereas SP-B lacks covalently linked fatty acyl groups | Q24558711 |
Low molecular weight human pulmonary surfactant protein (SP5): isolation, characterization, and cDNA and amino acid sequences | Q24633169 | ||
Conformation of glucagon in a lipid-water interphase by 1H nuclear magnetic resonance | Q27729151 | ||
The NMR structure of the pulmonary surfactant-associated polypeptide SP-C in an apolar solvent contains a valyl-rich alpha-helix | Q27731318 | ||
cDNA, deduced polypeptide structure and chromosomal assignment of human pulmonary surfactant proteolipid, SPL(pVal) | Q28296205 | ||
Hydrophobic 3.7 kDa surfactant polypeptide: Structural characterization of the human and bovine forms | Q28297099 | ||
The proteins of the surfactant system | Q28618896 | ||
Spatial structure of (34-65)bacterioopsin polypeptide in SDS micelles determined from nuclear magnetic resonance data | Q30925793 | ||
Development of synthetic lung surfactants. | Q33472619 | ||
Hyaline membrane disease | Q33997019 | ||
Nucleotide and amino acid sequences of pulmonary surfactant protein SP 18 and evidence for cooperation between SP 18 and SP 28-36 in surfactant lipid adsorption | Q34584352 | ||
Protein secondary structure and circular dichroism: a practical guide | Q37937535 | ||
Bacteriorhodopsin, a membrane protein that uses light to translocate protons | Q39212070 | ||
Chemical synthesis of peptides and proteins | Q39532197 | ||
Interaction of lipid vesicles with monomolecular layers containing lung surfactant proteins SP-B or SP-C. | Q41995834 | ||
Physicochemical characterization of glucagon-containing lipid micelles | Q42273941 | ||
Two adjacent cysteine residues in the C-terminal cytoplasmic fragment of bovine rhodopsin are palmitylated | Q44241904 | ||
Conformations of poly-L-valine in solution | Q44244134 | ||
Surfactant protein SP-B induces ordering at the surface of model membrane bilayers | Q44424907 | ||
Conformational preferences of amino acids in globular proteins | Q44870543 | ||
Lung surfactant proteins, SP-B and SP-C, alter the thermodynamic properties of phospholipid membranes: a differential calorimetry study | Q46945088 | ||
Size and structure of the hydrophobic low molecular weight surfactant-associated polypeptide | Q47181086 | ||
Nucleotide and deduced amino acid sequence of the hydrophobic surfactant protein SP-C from rat: expression in alveolar type II cells and homology with SP-C from other species | Q48297851 | ||
Surface properties in relation to atelectasis and hyaline membrane disease. | Q55037269 | ||
Physicochemical studies of the protein-lipid interactions in melittin-containing micelles | Q66991412 | ||
Use of fully deuterated micelles for conformational studies of membrane proteins by high resolution 1H nuclear magnetic resonance | Q67005386 | ||
Structure and orientation of the surfactant-associated protein C in a lipid bilayer | Q67726889 | ||
Structure and functions of a dimeric form of surfactant protein SP-C: a Fourier transform infrared and surfactometry study | Q67992284 | ||
Fourier transform infrared studies of secondary structure and orientation of pulmonary surfactant SP-C and its effect on the dynamic surface properties of phospholipids | Q68000620 | ||
Solution conformations and aggregational properties of synthetic amyloid beta-peptides of Alzheimer's disease. Analysis of circular dichroism spectra | Q68173181 | ||
Role of bovine pulmonary surfactant-associated proteins in the surface-active property of phospholipid mixtures | Q68577593 | ||
Secondary structure of the hydrophobic myelin protein in a lipid environment as determined by Fourier-transform infrared spectrometry | Q69060891 | ||
Two hydrophobic low-molecular-mass protein fractions of pulmonary surfactant. Characterization and biophysical activity | Q69421634 | ||
Canine hydrophobic surfactant polypeptide SP-C. A lipopeptide with one thioester-linked palmitoyl group | Q70138887 | ||
Localization, synthesis, and processing of surfactant protein SP-C in rat lung analyzed by epitope-specific antipeptide antibodies | Q71637974 | ||
Effects of depalmitoylation on physicochemical properties of rhodopsin | Q72248586 | ||
Effect of acylation on structure and function of surfactant protein C at the air-liquid interface | Q72639606 | ||
P407 | language of work or name | English | Q1860 |
P921 | main subject | pulmonary surfactant | Q28163641 |
P304 | page(s) | 535-541 | |
P577 | publication date | 1995-04-01 | |
P1433 | published in | Biochemical Journal | Q864221 |
P1476 | title | Secondary structure and biophysical activity of synthetic analogues of the pulmonary surfactant polypeptide SP-C | |
P478 | volume | 307 ( Pt 2) |
Q51660727 | A synthetic surfactant based on a poly-Leu SP-C analog and phospholipids: effects on tidal volumes and lung gas volumes in ventilated immature newborn rabbits. |
Q64049690 | Amyloid fibril formation by pulmonary surfactant protein C |
Q40808883 | Biomimicry of surfactant protein C. |
Q31270991 | Biophysical activity of an artificial surfactant containing an analogue of surfactant protein (SP)-C and native SP-B |
Q33525036 | Critical structural and functional roles for the N-terminal insertion sequence in surfactant protein B analogs. |
Q34183112 | Deacylated pulmonary surfactant protein SP-C transforms from alpha-helical to amyloid fibril structure via a pH-dependent mechanism: an infrared structural investigation. |
Q40246941 | Development of a Synthetic Surfactant Using a Surfactant Protein-C Peptide Analog: In Vitro Studies of Surface Physical Properties |
Q34173469 | Dimeric N-terminal segment of human surfactant protein B (dSP-B(1-25)) has enhanced surface properties compared to monomeric SP-B(1-25) |
Q52529805 | Effects of non-covalent self-association on the subcutaneous absorption of a therapeutic peptide. |
Q42397127 | Effects of palmitoylation on dynamics and phospholipid-bilayer-perturbing properties of the N-terminal segment of pulmonary surfactant protein SP-C as shown by 2H-NMR |
Q44217972 | Effects of various forms of surfactant protein C on tidal volume in ventilated immature newborn rabbits |
Q77545836 | Formation and structure of surface films: captive bubble surfactometry |
Q57204714 | Free energy barrier estimation of unfolding the ?-helical surfactant-associated polypeptide C |
Q30862528 | Hydrogen/deuterium exchange and aggregation of a polyvaline and a polyleucine alpha-helix investigated by matrix-assisted laser desorption ionization mass spectrometry |
Q33913836 | Lipopeptide preparation and analysis. |
Q30322226 | Lysophosphatidylcholine abrogates the CR1 preserving effect of surfactant on quartz-exposed human granulocytes. |
Q41434943 | Molecular structures and interactions of pulmonary surfactant components |
Q36178022 | New synthetic surfactants--basic science |
Q34784744 | Palmitoylation and processing of the lipopeptide surfactant protein C. |
Q77796349 | Palmitoylation of lung surfactant protein SP-C alters surface thermodynamics, but not protein secondary structure or orientation in 1,2-dipalmitoylphosphatidylcholine langmuir films |
Q42837839 | Peptide lipidation stabilizes structure to enhance biological function |
Q40980552 | Production of surfactant protein C in the baculovirus expression system: the information required for correct folding and palmitoylation of SP-C is contained within the mature sequence |
Q42846226 | Pulmonary surfactant-associated polypeptide C in a mixed organic solvent transforms from a monomeric alpha-helical state into insoluble beta-sheet aggregates |
Q42987833 | Reverse-phase HPLC of the hydrophobic pulmonary surfactant proteins: detection of a surfactant protein C isoform containing Nepsilon-palmitoyl-lysine |
Q34059437 | Role of pulmonary surfactant components in surface film formation and dynamics |
Q43974207 | Structural basis for interactions between lung surfactant protein C and bacterial lipopolysaccharide |
Q77545802 | Structure and properties of surfactant protein C |
Q42070541 | Structure of SP-B/DPPC mixed films studied by neutron reflectometry. |
Q43600589 | Surface activity and film formation from the surface associated material of artificial surfactant preparations |
Q42742507 | Surfactant protein C peptides with salt-bridges ("ion-locks") promote high surfactant activities by mimicking the α-helix and membrane topography of the native protein |
Q36110543 | Surfactant protein C: basics to bedside |
Q35627775 | Surfactant therapy for respiratory distress syndrome in premature neonates: a comparative review |
Q40937450 | Synthetic protein analogues in artificial surfactants |
Q34037971 | Synthetic surfactant based on analogues of SP-B and SP-C is superior to single-peptide surfactants in ventilated premature rabbits |
Q39962761 | Synthetic surfactant containing SP-B and SP-C mimics is superior to single-peptide formulations in rabbits with chemical acute lung injury. |
Q33846455 | Synthetic surfactants to treat neonatal lung disease |
Q71034655 | The 21-residue surfactant peptide (LysLeu4)4Lys(KL4) is a transmembrane alpha-helix with a mixed nonpolar/polar surface |
Q28241042 | The Brichos domain-containing C-terminal part of pro-surfactant protein C binds to an unfolded poly-val transmembrane segment |
Q28388253 | The Pulmonary Surfactant: Impact of Tobacco Smoke and Related Compounds on Surfactant and Lung Development |
Q57204734 | The effect of environment on the stability of an integral membrane helix: Molecular dynamics simulations of surfactant protein C in chloroform, methanol and water |
Q33588378 | The lipids of pulmonary surfactant: dynamics and interactions with proteins |
Q28388325 | The pulmonary surfactant: impact of tobacco smoke and related compounds on surfactant and lung development |
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