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1.
The kappa immunoglobulin (Ig) genes from rat kidney and from rat myeloma cells were cloned and analyzed. In kidney DNA one C kappa species is observed by Southern blotting and cloning in phage vectors; this gene most likely represents the embryonic configuration. In the IR52 myeloma DNA two C kappa species are observed: one in the same configuration seen in kidney and one which has undergone a rearrangement. This somatic rearrangement has brought the expressed V region to within 2.7 kb 5' of the C kappa coding region; the rearrangement site is within the J kappa cluster which we have mapped. The rat somatic Ig rearrangement, therefore, closely resembles that seen in mouse Ig genes. In the rat embryonic fragment two J kappa segments were mapped at 2 and 4.3 kb 5' from the C kappa coding region. Therefore, the rat J kappa cluster extends over about 2.3 kb, a region much longer than the 1.4 kb of the mouse and human J kappa clusters. In the region between C kappa and the expressed J kappa of IR52 myeloma DNA, and XbaI site present in the embryonic kappa gene has been lost. A somatic mutation has therefore occurred in the intervening sequence DNA approx. 0.7 kb 3' from the V/J recombination site. Southern blots of rat kidney DNA hybridized with different rat V kappa probes showed non-overlapping sets of bands which correspond to different subgroups, each composed of 8-10 closely related V kappa genes.  相似文献   

2.
We have identified a new murine V kappa family that contains five to seven members, one member of which encodes the L chain V region of an anti-dsDNA antibody produced by a BALB/c hybridoma, C8.5. The cloned C8.5 V kappa gene exhibits highest homology with a human V kappa gene that was cloned from a nonproductive rearrangement but has never been seen in an expressed repertoire. Because this family was first identified in an autoantibody, we studied its expression in an autoimmune mouse strain. This V kappa family is expressed in 20% of hybridomas from NZB mice.  相似文献   

3.
4.
Germ line genes encoding mouse Ig kappa-chains belonging to the V kappa-1 group have been isolated from BALB/c, NZB, and CE, three inbred strains of differing kappa haplotype. The V kappa-1A and V kappa-1C germ line genes isolated from BALB/c (Ig kappa c) were identical to those previously described. These are the two major V kappa-1 germ line genes in BALB/c and together account for 40 of the 53 expressed V kappa-1 sequences that have been reported to date. Allelic differences in a single germ line variable region gene (V kappa-1A) in different strains of mice explain the differences in L chain IEF patterns previously associated with the Ig kappa-Ef2 locus. The rearranged kappa-gene expressed in the BALB/c myeloma MOPC-460 has been isolated and found to represent a V kappa-1A somatic variant differing by three nucleotides from the germ line V kappa-1A gene. Germ line genes isolated from NZB (Ig kappa b) and CE (Ig kappa f) show greater than 95% identity with the BALB/c genes over the 1700 nucleotides compared. Comparison by region indicated the greatest conservation of sequence occurs in and around the leader exon followed by the V-region exon. The NZB gene encodes the amino acid sequence found in the myeloma PC-2205, previously designated V kappa-1B. The V kappa-1 gene isolated from CE is likely an allele of the BALB/c V kappa-1C gene as the two share greater than 96% identity over 1700 nucleotides. The CE gene has been designated V kappa-1Cf. Ancient remnants of LINE-1 repetitive elements were detected approximately 400 bp downstream of all of the V kappa-1 genes. These possess greater homology with repetitive elements found near other kappa genes than they do with the native L1Md sequence.  相似文献   

5.
6.
Evolution of human immunoglobulin kappa J region genes   总被引:54,自引:0,他引:54  
Immunoglobulin kappa chain variable region genes are assembled from two discontinuous DNA segments, a V and a J gene. The J region genes, in addition to encoding amino acid positions 96-108 of the kappa polypeptide chain, also provide sequences required for both DNA and RNA splicing reactions. For purposes of evolutionary comparison and to establish the complexity of the kappa J region locus in man, we have determined an approximately 3000 basepair nucleotide sequence in a cloned human DNA fragment that encodes the germline distinct J region segments. Significant blocks of homology have been tightly maintained between this region and an analogous segment of the mouse genome. In particular, the short sequences, GGTTTTTGT and CACTGTG, thought to be involved in V-J recombination, are the most highly conserved regions (97% homology). In addition, from heteroduplex data and computer analysis of the nucleotide sequences, it is clear that the mouse J3 sequence, a pseudogene, is not present in the human cluster. This can be explained by a duplication event in the mouse J region gene cluster that may have been the result of unequal crossing over between homologous chromosomes.  相似文献   

7.
We have constructed a library of Balb/c mouse embryo DNA in the vector Charon 4A. The library was searched for sequences homologous to the VH region of a cloned cDNA of the UPC10 heavy chain mRNA. In this paper, we describe the structure and the partial nucleotide sequence of one of such clones (VH441). The nucleotide sequence of this germ-line gene indicates that it encodes amino-acids 1-98 of the X44 and J601 galactan-binding VH regions, but that it differs from the UPC10 VH segment by four single base changes. The VH gene appears to contain a 101 bases long intervening sequence within a precursor sequence identical to the precursor sequence of UPC10. The 3' non coding sequence of the V gene contains the two conserved sequences found in embryonic V DNA segments, CACAGTG and ACATGAACC, separated by 23 nucleotides and a sequence CACTGTG separated by 33 nucleotides from the first heptamer.  相似文献   

8.
Monoclonal antibodies to the hapten phenyloxazolone were raised 7 days after immunization in mice of six strains (BALB/c, C57BL-Igha, DBA2, RF, A/J, and CE). Hybridomas were selected that produced 260 idiotype-positive antibodies, and their light chain mRNA were partially sequenced. (RF is an idiotype-negative strain, and sequencing was done without this selection.) All newly sequenced BALB/c, C57BL-Igha, DBA/2, A/J, or CE VK segments had a 100% nucleotide homology with the VKOx1 (H3) germline gene. This gene codes for one third of early BALB/c phenyloxazolone antibodies, and according to our results the same gene has a significant role in the early response of at least five strains of mice. Four RF hybridomas had identical nucleotide sequences, suggesting that they express a non-mutated nucleotide sequence of a new VK germ-line gene (VKOx2). This gene codes for a CDR1 which is two amino acids longer than the CDR1 coded by the VKOx1 gene, but otherwise the two genes are related (94.5% sequence homology). All but one of the 16 kappa chains studied had the J5 segment; this segment had the same sequence in all six strains. One RF antibody had the J4 segment the nucleotide sequence of which differs from the BALB/c J4 segment in two places. Three of the kappa chains had an extra long CDR3. Long and "normal" kappa chains were probably coded by the same pair of germ-line genes (VKOx1 and J5, or VKOx2 and J5). The length heterogeneity was probably caused by a lack of precision in VK-JK joining.  相似文献   

9.
The variable (V) region sequences of six immunoglobulin M (IgM, kappa) monoclonal autoantibodies that recognize bromelinized isologous red blood cells, obtained by fusions of peritoneal cells from NZB or CBA/J nonimmunized mice with BALB/c myeloma cells, were determined by direct mRNA sequencing. The V regions of the light chains (VL) are almost identical with one another, as are the V regions of the heavy chains (VH), which, however, differ by six linked-base substitutions, depending on the strain of mice producing the autoantibodies. Such variations may reflect allelic differences. The VH segments determined have no obvious correspondence to any VH genes identified so far. They may belong to the small VH group 4, where 73% homology, at the most, can be calculated at the protein level for codons 1 to 94. Alternatively, the VH regions may be members of a new group of VH sequences not previously found. The V kappa regions appear closely homologous to members of the V kappa-9 subgroup of myeloma proteins of unknown antigen-binding specificity. The joining segments, J kappa and JH, used by the autoantibodies investigated, originate from the J kappa 2 and JH1 germ-line gene segments, respectively. The nine base-long diversity segments, D, derive from one member of the germ-line D gene SP2 family.  相似文献   

10.
Xenopus laevis Ig contain two distinct types of L chains, designated rho or L1 and sigma or L2. We have analyzed Xenopus genomic DNA by Southern blotting with cDNA probes specific for L1 V and C regions. Many fragments hybridized to the V probe, but only one or two fragments hybridized to the C probe. Corresponding C, J, and V gene segments were identified on clones isolated from a genomic library prepared from the same DNA. One clone contains a C gene segment separated from a J gene segment by an intron of 3.4 kb. The J and C gene segments are nearly identical in sequence to cDNA clones analyzed previously. The C segment is somewhat more similar and the J segment considerably more similar in sequence to the corresponding segments of mammalian kappa chains than to those of mammalian lambda chains. Upstream of the J segment is a typical recombination signal sequence with a spacer of 23 bp, as in J kappa. A second clone from the library contains four V gene segments, separated by 2.1 to 3.6 kb. Two of these, V1 and V3, have the expected structural and regulatory features of V genes, and are very similar in sequence to each other and to mammalian V kappa. A third gene segment, V2, resembles V1 and V3 in its coding region and nearby 5'-flanking region, but diverges in sequence 5' to position -95 with loss of the octamer promoter element. The fourth V-like segment is similar to the others at the 3'-end, but upstream of codon 64 bears no resemblance in sequence to any Ig V region. All four V segments have typical recombination signal sequences with 12-bp spacers at their 3'-ends, as in V kappa. Taken together, the data suggest that Xenopus L1 L chain genes are members of the kappa gene family.  相似文献   

11.
The cDNA for H and L chain V regions of two anti-Z-DNA mAb, Z22 and Z44, were cloned and sequenced. These are the first experimentally induced anti-nucleic acid antibody sequences available for comparison with autoantibody sequences. Z22 and Z44 are IgG2b and IgG2a antibodies from C57BL/6 mice. They recognize different facets of the Z-DNA structure. They both use VH10 family genes and share 95% sequence base sequence identity in the VH and leader sequences; however, they differ in the 5'-untranslated region of the VH mRNA, indicating they arise from different germline genes. Both use JH4 segments. They differ from each other very extensively in the CDR3 of both H and L chains. The most closely related H chains in the current GenBank/EMBL data base are two mouse IgG anti-DNA autoantibodies, one from an MRL-lpr/lpr mouse (MRL-DNA4) and one from an NZB/NZW mouse (BV04-01). Z22 and Z44 share 95% sequence identity with these antibodies in the VH segment. In addition, Z22 is identical to MRL-DNA4 at 91% of the positions in the 5'-untranslated region of the H chain mRNA. The two antibodies share 95% base sequence identity in the V kappa segment. The most closely related L chains, with 97 to 98% sequence identity, are the V kappa 10b germline gene for Z22 and the V kappa 10a germ line gene, which is associated with A/J anti-arsonate antibodies and BALB/c anti-ABO blood group substance antibodies, for Z44. Z22 and Z44 share several structural features (similarities in VH, JH, and V kappa) but differ very markedly in the L chain CDR1 and both H and L chain CDR3 sequences; these regions may determine the differences in their specific interactions with Z-DNA.  相似文献   

12.
O Bernard  N Hozumi  S Tonegawa 《Cell》1978,15(4):1133-1144
We have determined the nucleotide sequences of the germ line gene as well as a corresponding somatically mutated and rearranged gene coding for a mouse immunoglobulin lambdaI type light chain. These sequencing studies were carried out on three Eco RI-DNA fragments which had been cloned from BALB/c mouse embryos or a lambdaI chainsecreting myeloma, H2020. The embryonic DNA clone Ig 99lambda contains two protein-encoding segments, one for the majority of the hydrophobic leader (L) and the other for the rest of the leader and the variable (V) region of the lambda0 chain (Cohn et al., 1974); these segments are separated by a 93 base pair (bp) intervening sequence (I-small). The coding of the V region ends with His at residue 97. The second embryonic DNA clone Ig 25lambda includes a 39 bp DNA segment (J) coding for the rest of the conventionally defined V region (that is, up to residue 110), and also contains the sequence coding for the constant (C) region approximately 1250 untranslated bp (I-large) away from the J sequence. The J sequence is directly linked with the V-coding sequence in the myeloma DNA clone, Ig 303lambda, which has the various DNA segments arranged in the following order: 5' untranslated region, L, l-small, V linked with J, l-large, C, 3' untranslated sequence. The lg 303lambda V DNA sequence codes for the V region synthesized by the H2020 myeloma and is different from the lg 99lambda V DNA sequence by only two bases. No silent base change was observed between the two DNA clones for the entire sequence spanning the 5' untranslated regions and the V-coding segments. These results confirm the previously drawn conclusion that an active complete lambdaI gene arises by somatic recombination that takes place at the ends of the V-coding DNA segment and the J sequence. No sequence homology was observed at or near the sites of the recombination.  相似文献   

13.
A molecular cloning approach was used to determine the relative utilization of 2 individual V kappa 21 genes, 13 V kappa gene families, and the 4 functional J kappa gene segments among splenic B cells of nonimmunized BALB/c mice. Based on the observed frequency of individual V kappa gene expression, we estimate that the mouse genome encodes 150 to 180 functional V kappa genes, and we suggest that most functional V kappa exons are expressed at comparable frequencies in the preimmune antibody repertoire. In contrast, clear differences in J kappa segment utilization were observed, J kappa 4 being consistently underrepresented with respect to the other J kappa segments.  相似文献   

14.
We have analyzed the structure of Ig kappa chain genes in B cell lines derived from a human individual who cannot synthesize any kappa chains, and whose Igs all contain lambda chains (1). We have characterized secondary DNA recombination events at two kappa alleles which have undergone misaligned V-J recombinations. One such secondary recombination has joined the flanking sequences of a V kappa and a J kappa 2 gene segment as if it were the reciprocal product of a V-J kappa 2 recombination, and resulted in the displacement of the recombined VJ kappa 1 gene segments from the C kappa locus. The non-rearranged form of the V kappa fragment which had recombined with the J kappa 2 flank was cloned. Nucleotide sequencing of this fragment identified a V kappa gene that differed by at least 38% from all previously sequenced human V kappa genes. The other V-J kappa segment analyzed has undergone a secondary recombination at a different site from that described above, at a site within the intervening sequence between the J kappa and C kappa gene segments, similar to the location of secondary recombinations which have occurred in lambda + B cell lines from mice and humans (2,3). These results prove that multiple recombinations can occur at one J kappa-C kappa locus.  相似文献   

15.
With age, NZB mice develop anti-RBC autoantibodies resulting in the development of autoimmune hemolytic anemia. We now have evidence that this spontaneous autoantibody response consists of antibodies that are similar in specificity and Id expression to a pathogenic autoantibody (G8) that was cloned from an autoimmune NZB mouse. Similar to autoantibodies eluted from Coombs'-positive mouse E (MRBC), the G8 mAb recognizes native (unmodified) MRBC but not RBC from other species. Interestingly, G8 and four additional mAb bind with a higher titer to bromelain-treated MRBC than to native MRBC. Nucleotide sequence analysis reveals, however, that unlike "natural" antibodies that react solely with bromelain-MRBC, G8 is encoded by a J558 VH gene and a V kappa 12,13 L-chain gene. Thus G8 is clearly distinct from antibodies to bromelain-MRBC which are encoded by unrelated V genes. Instead, the sequence of the G8 VH chain was found to be nearly identical to that of an anti-DNA mAb derived from an MRL-lpr/lpr mouse. The results suggest Coombs'-positive autoantibodies from NZB mice are not derived from "natural" antibodies, but rather, consist of a restricted set of autoantibodies expressing the G8 IdX.  相似文献   

16.
We have determined the nucleotide sequence of a 5.5-kilobase segment of cloned mouse DNA which includes regions encoding two parts of the mouse kappa immunoglobulin gene: the J regions (amino acids 96-108 of the kappa chain) and the C region (residues 109-214). This sequence allows us to rule out interruptions in the germline constant region coding segment as well as the presence of additional functional J genes in the sequenced DNA segment, although two weak homologies to J regions have been found. The complete sequence also allows us to identify a single occurrence of the heptanucleotide palindrome thought to play a role in V/J joining. This palindrome, midway between J and C regions, is the site of aberrant joining in the plasmacytoma MPC11 and may be a target for such aberrant recombination of other kappa genes. In addition, computer analysis of the J sequences suggests that those closest to the C region arose by the most recent duplication event.  相似文献   

17.
A 5.3 kb EcoRI fragment (T3, abbreviations in ref. 2) has been cloned from DNA of a kappa light chain producing mouse myeloma. The fragment hybridizes to the k' flanking sequences of the J1 gene segment but not to C gene sequences of kappa light chain DNA. Restriction nuclease mapping and partial nucleotide sequencing showed that the fragment consists of sequences from the 5' side of the J1 and form the 3' side of a V gene segment, which apparently had been linked in a genomic rearrangement process. These rearranged flanking sequences are not the flanking sequences of the V and J gene segments which had been joined to form the two kappa light chain genes of the myeloma. Fragments with the hybridization properties of T3 have been found also in two other kappa and one lambda chain producing myelomas. The linking of flanking sequences in the myeloma genome is discussed with respect to the mechanism of recombination between V and J gene segments.  相似文献   

18.
19.
To ascertain the molecular mechanism that causes murine C5 deficiency, genomic and cDNA libraries were constructed from mouse liver DNA and mRNA employing the congenic strains B10.D2/nSnJ and B10.D2/oSnJ that are sufficient and deficient for C5, respectively. Genomic fragments were isolated which correspond to PvuII and HindIII restriction fragment length polymorphisms associated with C5 deficiency. Sequence analyses demonstrated that each of these polymorphisms resulted from single base pair substitutions and that neither substitution would probably cause or contribute to the C5 deficiency. Sequence analyses of C5 sufficient and deficient cDNAs revealed a 2 base-pair deletion in the deficient cDNAs. The "TA" deletion was located near the 5' end of the cDNA. This deletion shifts the reading frame of the C5 mRNA so that the termination codon UGA is present 4 base pairs downstream from the deletion. Genomic DNA was amplified and sequenced corresponding to the area surrounding the 2-base pair deletion. Six C5-deficient strains, A/HeJ, AKR/J, DBA/2J, NZB/B1NJ, SWR/J, and B10.D2/oSnJ, and four C5-sufficient strains, Balb/CJ, C57Bl/6J, DBA/1J, and B10.D2/nSnJ, were analyzed. The sequencing data revealed that the 2 base pairs were deleted from the C5 gene of each deficient mouse tested but not from the C5 gene of any sufficient mouse. These data demonstrate that: 1) there is an identical 2-base pair deletion in an exon of the C5 gene in several different C5-deficient mouse strains; 2) the mRNA transcribed from the C5D gene retains this deletion; and 3) this mutation should result in C5 protein deficiency.  相似文献   

20.
Two gene segments, V kappa-25-39 and V kappa-25-47, that encode antibody to streptococcal group A carbohydrate in A/J mice were found to be more than 95% homologous in nucleotide sequence in both coding and noncoding regions. It was previously shown that V kappa-25-39 encodes immunoglobulins that express the IdX and IdI-1 idiotopes, whereas V kappa-25-47 encodes IdX+, and IdI-1- immunoglobulins. V kappa gene segments that were clearly allelic to V kappa-25-47 are used to encode IdX+, IdI-1- anti-group A carbohydrate antibodies by C.B20 mice and likely by C57BL/6 mice. Murine strains that are deficient in IdI-1 idiotope expression were investigated by Southern blotting with a 5' probe from V kappa-25-39. Two IdI-1-deficient strains, CE/J and C58/J, had a grossly altered V kappa gene segment structure compared with the A/J prototype. In contrast, the IdI-1-deficient strain, C57BL/6, was indistinguishable from A/J with the 5'V kappa-25-39 probe, indicating that more subtle genetic changes account for the loss of IdI-1 expression in C57BL/6 mice. The evolution of V kappa-25-39 and V kappa-25-47 gene segments was deduced by comparison with the homologous V kappa 24B gene segment of Mus pahari. V kappa-25-39 and V kappa-25-47 likely have recently duplicated once in A/J and related strains of laboratory mice and may have duplicated again in CE/J mice. Thus, individual members of the V kappa 24 gene family, to which V kappa-25-39 and V kappa-25-47 belong, are preserved while the number of gene copies expands or contracts. This fact is strong evidence that evolutionary forces have maintained the V kappa 24 gene family, all of which encode antibody specific for carbohydrate found in bacterial pathogens.  相似文献   

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