Yeast gene SRP1 (serine-rich protein). Intragenic repeat structure and identification of a family of SRP1-related DNA sequences

We have isolated and sequenced a yeast gene encoding a protein (Mr 24,875) very rich in serine (SRP) and alanine residues that accounted for 25% and 20% of the total amino acids, respectively. The SRP1 gene is highly expressed in culture conditions leading to glucose repression (Marguet & Lauquin, 1986), the amount of SRP1 mRNA representing about 1 to 2% of total poly(A)+ RNA. A repetitive structure of eight direct tandem repeats 36-base long, also reflected in the amino acid sequence, was found in the second half of the open reading frame. The consensus amino acid sequence of the repeat was Ser-Ser-Ser-Ala-Ala-Pro-Ser-Ser-Ser-Glu-Ala-Lys. Replacing the genomic copy of the cloned gene with a disrupted SRP1 gene indicated that the SRP1 gene was not essential for viability in yeast, but several SRP1-homologous sequences were found within the yeast genome, raising the possibility that the disrupted SRP1 gene is rescued by one of the other SRP-homologous sequences. Complete separation of yeast chromosomes by contour-clamped homogeneous field electrophoresis indicated that, apart from chromosome V, which carries the SRP1 gene, 12 chromosomes have SRP-related sequences with various degrees of homology. These sequences were located on chromosomes XV, VII and XI under stringent conditions of hybridization (tm -20 degrees C), and observed on chromosomes I, II, III, IV, VI, VIII, X, XI and XII, only under low-stringency conditions (tm -40 degrees C). Northern blot analysis of both the wild type and SRP1-disrupted strains indicated that along with SRP1 at least one more member of the SRP family was transcribed to a 0.7 kb (1 kb = 10(3) bases) polyadenylated RNA species clearly distinct from the SRP1-specific mRNA (1 kb long). Analyses of the SRP1 repeat domain suggested a model for the divergent evolution of the repeats in the SRP1 sequence.

Preferential expression of VK21E light chains on IdX Ia.7 positive monoclonal anti-I-E antibodies

We previously characterized major (IdX Ia.7) and minor (IdI) idiotopes in a collection of monoclonal alloantibodies reactive with monomorphic (i.e., Ia.7-like) determinants in the structural domain I of the murine class II I-E molecules. In this report, preliminary structural characterization of this antibody family is presented. First, the contribution of isolated H and L chains of the anti-Ia.7 cluster I mAb 41.A to IdX Ia.7 and IdI 41.A idiotope expression was evaluated by testing the capacity of these chains, either isolated or reassociated in homologous or heterologous hybrid Ig, to inhibit the binding of rat or mouse anti-idiotope mAb to IdX Ia.7+ mAb coated plates. It was found that the IdI 41.A idiotope defined by the mouse anti-idiotopic mAb H90-21.1 required the presence of both 41.A H and L chains for complete expression, while the rat mAb-defined IdX Ia.7 idiotope could be detected on isolated and on reassociated 41.A L chain. To evaluate further the structural correlates of the IdX Ia.7 idiotope, H, L, or both H and L chains of 5 A.BY, 4 A.TH and 1 C3H.SW IdX+ anti-Ia.7 mAb, as well as that of 3 A.TH IdX- anti-I-E or anti-I-A and -I-E mAb were subjected to NH2-terminal amino acid sequencing. These analyses demonstrated a) that different H chains corresponding to different subgroups (at least to the VHII and VHIII) could be expressed without apparent modification of IdX Ia.7 idiotope expression and b) that 9 of 11 IdX+ anti-Ia.7 mAb utilized highly homologous L chains of the VK21E subgroup. The relevance of these findings to the genetic control of the idiotypic markers identified in the Ia.7 system is discussed.

Preferential expression of VK21E light chains on IdX Ia.7 positive monoclonal anti-I-E antibodies

We previously characterized major (IdX Ia.7) and minor (IdI) idiotopes in a collection of monoclonal alloantibodies reactive with monomorphic (i.e., Ia.7-like) determinants in the structural domain I of the murine class II I-E molecules. In this report, preliminary structural characterization of this antibody family is presented. First, the contribution of isolated H and L chains of the anti-Ia.7 cluster I mAb 41.A to IdX Ia.7 and IdI 41.A idiotope expression was evaluated by testing the capacity of these chains, either isolated or reassociated in homologous or heterologous hybrid Ig, to inhibit the binding of rat or mouse anti-idiotope mAb to IdX Ia.7+ mAb coated plates. It was found that the IdI 41.A idiotope defined by the mouse anti-idiotopic mAb H90-21.1 required the presence of both 41.A H and L chains for complete expression, while the rat mAb-defined IdX Ia.7 idiotope could be detected on isolated and on reassociated 41.A L chain. To evaluate further the structural correlates of the IdX Ia.7 idiotope, H, L, or both H and L chains of 5 A.BY, 4 A.TH and 1 C3H.SW IdX+ anti-Ia.7 mAb, as well as that of 3 A.TH IdX- anti-I-E or anti-I-A and -I-E mAb were subjected to NH2-terminal amino acid sequencing. These analyses demonstrated a) that different H chains corresponding to different subgroups (at least to the VHII and VHIII) could be expressed without apparent modification of IdX Ia.7 idiotope expression and b) that 9 of 11 IdX+ anti-Ia.7 mAb utilized highly homologous L chains of the VK21E subgroup. The relevance of these findings to the genetic control of the idiotypic markers identified in the Ia.7 system is discussed.

Experimental meridian line of stomach and its low impedance nature

Applying electrical impulse stimuli at the Jing point (St. 45) and then tapping on the skin surface along the vertical lines crossing the channel of the stomach, the line of latent propagated sensation along channel (LPSC) was determined in 51 patients at the acupuncture clinic. Of the cases examined, 98 percent were found to have positive LPSC lines which were basically coincident with the classical stomach channel. Using a low frequency skin impedance detector, the skin impedance of the entire lines of LPSC was found to be lower than its adjacent areas.