Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.5.1.3 (dihydrofolate reductase)
 5,819 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have established an anti-sense RNA system which is capable of regulating expression of the class II (Ia) molecule coded for by the major histocompatibility complex in cultured mouse cells. Various areas of the I-A beta chain gene were subcloned in an anti-sense orientation to the 3' of the dihydrofolate reductase (DHFR) cDNA under the control of the human metallothionein IIa gene promoter. These anti-sense DNA constructs were transfected into M12.4 cells, a BALB/c B lymphoma cell line which expresses both I-A and I-E molecules on the cell surface. I-A expression of selected clones transfected with anti-sense DNA encompassing the 5' untranslated region (UT) (100 or 310 bp) including the translation start site or the poly(A) addition signalling sequence in the 3' UT (250 bp) of the I-A beta chain gene were specifically reduced to less than 5% of the control M12.4 cell surface I-A expression. These clones had normal levels of I-E expression. However, transfection of the anti-sense DNA to the beta 1 domain (510 bp) including the splicing donor and acceptor sequences did not affect the expression of I-A molecules. The same antisense DNA constructs (100 bp of the 5' UT or 250 bp of the 3' UT) without the DHFR cDNA (710 bp) did not down-regulate the expression of I-A molecules, indicating that either the physical length of the anti-sense RNA or specific DHFR cDNA sequences are also important.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Specific inhibition of class II MHC gene expression by anti-sense RNA. 256 57

To elucidate the detailed gene organization of the human leukocyte antigen (HLA) class I region on chromosome 6, seven contiguous cosmid genomic clones covering the 237-kb segment around the HLA-B and -C loci were subjected to DNA sequencing by the shotgun strategy to give a single contig of 236,822 bp from the MICA gene (58.2 kb centromeric of HLA-B) to 90.8 kb telomeric of HLA-C. This region was confirmed to contain four known genes, MICA, HLA-17, HLA-B, and HLA-C, from centromere to telomere. Further, a new member of the P5 multicopy genes was found to be about 1.3 kb upstream of the HLA-17 gene and designated P5.8. Five novel genes designated NOB1-5 were identified by RT-PCR and Northern blot hybridization. In addition, two pseudogenes, dihydrofolate reductase pseudogene (DHFRP) and ribosomal protein L3 homologous gene (RPL3-Hom), were also found in the vicinity of the HLA-B and -C genes, respectively. The two segments (about 40 kb) downstream of the HLA-B and HLA-C genes showed high sequence homology to each other, suggesting that segmental genome duplication including the major histocompatibility complex (MHC) class I gene must have occurred during the evolution of the MHC.
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PMID:Nucleotide sequence analysis of the HLA class I region spanning the 237-kb segment around the HLA-B and -C genes. 917 76

We examined the effects of protein folding on endoplasmic reticulum (ER)-to-cytosol transport (dislocation) by exploiting the well-characterized dihydrofolate reductase (DHFR) domain. DHFR retains the capacity to bind folate analogues in the lumen of microsomes and in the ER of intact cells, upon which it acquires a conformation resistant to proteinase K digestion. Here we show that a Class I major histocompatibility complex heavy chain fused to DHFR is still recognized by the human cytomegalovirus-encoded glycoproteins US2 and US11, resulting in dislocation of the fusion protein from the ER in vitro and in vivo. A folded state of the DHFR domain does not impair dislocation of Class I MHC heavy chains in vitro or in living cells. In fact, a slight acceleration of the dislocation of DHFR heavy chain fusion was observed in vitro in the presence of a folate analogue. These results suggest that one or more of the channels used for dislocation can accommodate polypeptides that contain a tightly folded domain of considerable size. Our data raise the possibility that the Sec61 channel can be modified to accommodate a folded DHFR domain for dislocation, but not for translocation into the ER, or that a channel altogether distinct from Sec61 is used for dislocation.
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PMID:Protein unfolding is not a prerequisite for endoplasmic reticulum-to-cytosol dislocation. 1248 53