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Query: UNIPROT:P50583 (
asymmetrical
)
12,197
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The characteristics of L-lysine transport were investigated at brush-border (maternal) and basal (fetal) sides of the syncytiotrophoblast in the term guinea-pig placenta artificially perfused either through the umbilical vessels in situ or through both circulations simultaneously. Cellular uptake, efflux and transplacental transfer were determined using a single-circulation paired-tracer dilution technique. Unidirectional L-[3H]lysine uptake (%) (perfusate lysine 50 microM) was high on maternal (M = 87 +/- 1) and fetal (F = 73 +/- 2) sides. L-[3H]Lysine efflux back into the ipsilateral circulation was
asymmetrical
(F/M ratio = 2.3) and transplacental flux occurred in favour of the fetal circulation. Unidirectional lysine influx kinetics (0.05-8.00 mM) gave Km values of 1.75 +/- 0.70 mM and 0.90 +/- 0.25 mM at maternal and fetal sides, respectively; corresponding Vmax values were 1.95 +/- 0.38 and 0.87 +/- 0.10 mumol.min-1.g-1. At both sides, lysine influx (50 microM) could be inhibited (about 60-80%) by 4 mM L-lysine and L-ornithine and less effectively (about 10-40%) by L-citrulline, L-arginine, D-lysine and L-histidine. At the basal side: (i) lysine influx kinetics were greatly modified in the presence of 10 mM L-alanine (Km = 6.25 +/- 3.27 mM; Vmax = 2.62 +/- 0.94 mumol.min-1.g-1), but unchanged by equimolar L-phenylalanine or L-
tryptophan
; (ii) in the converse experiments, lysine (10 mM) did not affect the kinetic characteristics for either L-alanine or L-phenylalanine; (iii) L-lysine and L-alanine influx kinetics were not dependent on the sodium gradient; (iv) the inhibition of L-[3H]lysine uptake by 4 mM L-homoserine was partially (60%) Na+-dependent. At the maternal side the kinetic characteristics for alanine influx were highly Na+-dependent, while lysine influx was partially Na+-dependent only at low concentrations (0.05-0.5 mM). Bilateral perfusion with 2,4-dinitrophenol (1 mM) reduced L-[3H]lysine uptake into the trophoblast and abolished transplacental transfer. It is suggested that lysine transport in the guinea-pig placenta is mediated by a specific transport system (y+) for cationic amino-acids. The asymmetry in the degree of sodium-dependency at both trophoblast membranes may in part explain the maternal-to-foetal polarity of placental amino-acid transfer in vivo.
...
PMID:Lysine and alanine transport in the perfused guinea-pig placenta. 249 34
The dependence of the slopes of normalized Perrin plots on the excitation wavelength was established. It was shown that the cause of this effect is the anisotropy of the Brownian rotation of proteins, which must be regarded as
asymmetrical
particles with specific, but not random, orientation of
tryptophan
with respect to the main axes of the macromolecule. These findings were analysed on the basis of the rotational depolarization theory of such systems, applied for the case when bands of two absorption oscillators overlap as it is for oscillators 1La and 1Lb in the longest wavelength absorption band of
tryptophan
. It was shown that anisotropy of Brownian molecular rotation is one of the factors that determines the form of the polarization spectrum. The difference of the polarization spectrum of proteins from that of
tryptophan
, extrapolated to the infinite viscosity, is determined by energy transfer processes in proteins.
...
PMID:[Polarization of the intrinsic fluorescence of proteins. I. Factors determining the form of the polarization spectrum]. 679 45
WIN 64821 (1) is a substance P (SP) antagonist isolated from a fungal culture (Aspergillus sp., SC319). It is a symmetrical dimer biosynthesized from four aromatic amino acid molecules: each equivalent half of the dimer is constructed from one molecule of phenylalanine (Phe) and one molecule of
tryptophan
(Trp). Feeding analogs of Phe, Trp, and other amino acids to intact cells of SC319 has yielded 36 biosynthetic analogs of WIN 64821. The analogs fall into three categories: substitutions on the indoline ring, substitutions on the Phe-derived phenyl ring, and replacement of the phenyl ring by an aliphatic group. In addition, these directed biosynthesis experiments generated
asymmetrical
dimers (derived from three amino acids) and, often, symmetrical dimers (derived from two amino acids). The relative SP binding affinities of several analogs suggest involvement of both the indoline and phenyl moieties in SP receptor binding.
...
PMID:WIN 64821, a novel neurokinin antagonist produced by an Aspergillus sp. III. Biosynthetic analogs. 751 39
Phosphorescence and fluorescence energy transfer measurements have been used to locate the epsilon-subunit within the know structural frame of the mitochondrial soluble part of F-type H(+)-ATPase complex (F1). The fluorescence probe 2'-O-(trinitrophenyl)adenosine-5'-triphosphate was bound to the nucleotide binding sites of the enzyme, whereas the probe 7-diethylamino-3'-(4'-maleimidylphenyl)-4-methylcoumarin was attached to the single sulfhydryl residue of isolated oligomycin sensitivity-conferring protein (OSCP), which was then reconstituted with F1. Fluorescence and phosphorescence resonance energy transfer yields from the lone
tryptophan
residue of F1 present in the epsilon-polypeptide and the fluorescence labels attached to the F1 complex established that
tryptophan
is separated by 3.7 nm from Cys-118 of OSCP in the reconstituted OSCP-F1 complex, by 4.9 nm from its closest catalytic site and by more than 6.4 nm from the two other catalytic sites, including the lowest affinity ATP site. These separations together with the crystallographic coordinates of the F1 complex (Abrahams, J.P., A. G. W. Leslie, R. Lutter, and J.E. Walker. 1994. Structure at 2.8 A resolution of F1-ATPase from bovine heart mitochondria. Nature. 370:621-628) place the epsilon-subunit in the stem region of the F1 molecule in a unique
asymmetrical
position relative to the catalytic sites of the enzyme.
...
PMID:Structural mapping of the epsilon-subunit of mitochondrial H(+)-ATPase complex (F1). 908 86
Knowledge about the vertical movement of a protein with respect to the lipid bilayer plane is important to understand protein functionality in the biological membrane. In this work, the vertical displacement of bacteriophage M13 major coat protein in a lipid bilayer is used as a model system to study the molecular details of its anchoring mechanism in a homologue series of lipids with the same polar head group but different hydrophobic chain length. The major coat proteins were reconstituted into 14:1PC, 16:1PC, 18:1PC, 20:1PC, and 22:1PC bilayers, and the fluorescence spectra were measured of the intrinsic
tryptophan
at position 26 and BADAN attached to an introduced cysteine at position 46, located at the opposite ends of the transmembrane helix. The fluorescence maximum of
tryptophan
shifted for 700 cm(-1) on going from 14:1PC to 22:1PC, the corresponding shift of the fluorescence maximum of BADAN at position 46 was approximately 10 times less ( approximately 70 cm(-1)). Quenching of fluorescence with the spin label CAT 1 indicates that the
tryptophan
is becoming progressively inaccessible for the quencher with increasing bilayer thickness, whereas quenching of BADAN attached to the T46C mutant remained approximately unchanged. This supports the idea that the BADAN probe at position 46 remains at the same depth in the bilayer irrespective of its thickness and clearly indicates an
asymmetrical
nature of the protein dipping in the lipid bilayer. The anchoring strength at the C-terminal domain of the protein (provided by two phenylalanine residues together with four lysine residues) was estimated to be roughly 5 times larger than the anchoring strength of the N-terminal domain.
...
PMID:Asymmetric dipping of bacteriophage M13 coat protein with increasing lipid bilayer thickness. 1971 63
