Static and magic angle spinning 31 P NMR spectroscopy was used for the first time in natural plasma membranes from erythrocytes and skeletal muscle to study phospholipid arrangement and composition. Typical static powder-like spectra were obtained showing that phospholipids were in a bilayer arrangement. Magic angle spinning narrowed spectra into two components. The first one corresponded to phosphatidylcholine and the second one to the other phospholipids with intensities in agreement with the known phospholipid composition. These findings show that NMR data previously acquired using model membranes can be transposed to studies on phospholipids in their natural environment.z 1999 Federation of European Biochemical Societies.
Human sperm are a heterogeneous population, particularly with respect to their morphology, motility, and degree of nuclear maturity. The characteristics of human sperm and the degree of nuclear condensation with variable sexual abstinence times (long, 7 days; short, 12 h) have been studied. Long abstinence led to an increase in the number of sperm and a decrease in their motility, but their morphology remained unchanged. The DNA-protein complex demonstrated by ethidium bromide uptake was unchanged, but there was a significant increase in nuclear stability upon treatment with SDS. The duration of abstinence hardly affected the degree of nuclear condensation or stability of human sperm. The heterogeneity observed is essentially of testicular origin.
A scanning and transmission electron microscope study of blastocysts immediately prior to ovo implantation and of antimesometrial implantation sites was conducted. External membranes of the eggs showed at 6 days post coitum the imprint of the endometrial surface, pointing to the early establishment of contact between egg and uterus. At 7 days the antimesometrial region showed flattening with continued evidence of gland openings that appear to be the elective sites of attraction of the trophoblastic knobs. Attachment of the trophoblastic knobs followed on days 8 and 9.
The biological functions of plasma membranes depend greatly on the biophysical properties resulting from protein and phospholipid structure. We investigated the phospholipid structure of the normal sarcolemma membrane, which is known to be highly dysfunctional in myopathies. Combining electron microscopy and 31 P nuclear magnetic resonance (NMR) spectroscopy on isolated sarcolemma vesicles, we find that (i) the sarcolemma vesicles maintain the in-vivo cellular sidedness, (ii) the phospholipid mobility is close to that observed in model membranes (similar lateral diffusion coefficients and spin^lattice T 1 relaxation times). Using broad-band and magic angle spinning 31 P NMR spectroscopy with lanthanide ions (Pr 3+ ), it is possible to quantify the distribution of phospholipids between internal and external membrane layers, showing that the trans-bilayer distribution is highly asymmetrical. ß
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