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Target Concepts:
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Query: UMLS:C0012872 (
DNA marker
)
929
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We have investigated the ATP-induced permeabilization of rat peritoneal mast cells using three different techniques: (a) by measuring uptake of fluorescent membrane and
DNA marker
dyes, (b) by voltage-clamp measurements using the patch-clamp technique, and (c) by measurements of exocytosis in response to entry of Ca2+ and GTP gamma S into permeabilized cells. In the absence of divalent cations cells become highly permeable at ATP concentrations as low as 3 microM. In normal saline containing 1 mM
MgCl2
and 2 mM CaCl2, dye uptake and electric conductance are detectable at 100 microM ATP corresponding to 4 microM ATP4-. The permeabilization is half-maximal at an ATP4- concentration of 5-20 microM with a Hill coefficient near 2. The ATP-induced whole-cell conductance at saturating ATP concentrations was 35-70 nS, exhibiting only weak cation selectivity. The activation is very fast with a time constant less than or equal to 65 ms. Pores which are large enough to allow for permeation of substances of 300-900 D are expected to have a unit conductance of approximately 200-400 pS. However, in whole cells as well as outside-out patches, discrete openings and closings of channels could not be observed at a resolution of approximately 40 pS and the single-channel conductance obtained from noise analysis is approximately 2-10 pS. Entry of Ca2+ into cells permeabilized with ATP stimulates exocytosis at low but not at high ATP concentrations indicating loss of an essential intracellular component or components at a high degree of permeabilization. This inactivation is removed when GTP gamma S is provided in the medium and this leads to enhanced exocytosis. The enhancement only occurs at high ATP concentrations. These results strongly suggest that the ATP-induced pores are of variable size and can increase or decrease by very small units.
...
PMID:ATP-induced pore formation in the plasma membrane of rat peritoneal mast cells. 218 68
Random microsatellite amplify polymorphic DNA (RMAPD) is a new method of molecular marker. It can reveal genome DNA polymorphisms of organism only when random primer and microsatellite forward or reverse primer are combined together as a pair of primers by the PCR reaction system with Taq DNA polymerase,
MgCl2
, dNTPs and contemplate DNA. The core question of RMAPD is validity of the primers used. A lot of experiments of RMAPD in 69 Xinong Saanen dairy goats showed that RMAPD primers were effective. Comparison of RMAPD, microsatellite and RAPD markers demonstrated that RMAPD was different from each other in primers, amplification protocol and repetition. RMAPD is not equal to RAPD, but a extendable RAPD. Therefore, RMAPD is regarded as a new method of molecular marker. As it has many characteristics of
DNA marker
, RMAPD has a widest potential application in animal breeding and genetics, such as analysis of genetic structure and relationship and MAS.
...
PMID:[A new method of molecular marker--RMAPD]. 1646 21
