Molecular cloning of retrovirus-like genes present in multiple copies in the Syrian hamster genome.

Endogenous retrovirus-like sequences homologous to intracisternal type-A particle (IAP) genes, which are present in the inbred mouse (Mus musculus) genome, were cloned from a Syrian hamster gene library. A typical hamster IAP gene was 7 kb long and segments homologous to long terminal repeat (IAP) sequences present in Mus musculus IAP genes were located at both ends of the gene. Contrary to the pattern found in the Mus musculus IAP genes, the organization of the cloned hamster IAP genes was not markedly polymorphic and deletion was not observed among these cloned genes. A sequence about 0.8 kb long and located close to the 3' end of the hamster IAP gene was well conserved in both IAP gene families, although they showed less overall homology with one another. The reiteration frequency of the hamster IAP genes was calculated to be 950 copies per haploid genome. Since such IAP genes with the above properties were not found in the genome of the Chinese hamster, whose progenitors diverged from those of the Syrian hamster about 7.5 Myr ago, the integration of a huge number of Syrian hamster IAP genes must have occurred subsequent to such divergence.     

Intracisternal A-particle genes: structure of adjacent genes and mapping of the boundaries of the transcriptional unit

Adjacent intracisternal A-particle (IAP) genes were identified in two different recombinant DNA clones, gamma 81 and gamma 19. In clone gamma 81, the most common form of IAP gene was separated by 5.3 kilobases from another IAP gene that had two apparent internal deletions. The two genes were in a head-to-tail configuration. In clone gamma 19, two different types of IAP genes were separated by less than 0.5 kilobase. Blot hybridization analysis of mouse DNA demonstrated that the DNA sequence found in clone gamma 81 is identical to the in vivo configuration. Using isolated DNA fragments from clone gamma 19, we mapped the boundaries of the IAP RNA by S1 digestion of RNA-DNA hybrids and by cDNA extension. With these techniques, both the 5' end and the 3' end of the IAP RNA in two different plasmacytomas (MOPC 315 and TEPC 15) were shown to fall within the long terminal direct repeat of the IAP gene. The fragment sizes generated by S1 digestion of IAP RNAs isolated from the two tumor lines were found to differ, indicating that different IAP genes may be transcribed in these two plasmacytomas.     

Extreme ends of the genome are conserved and rearranged in the defective interfering RNAs of semliki forest virus

We have analyzed Semliki Forest virus defective interfering RNA molecules, generated by serial undiluted passaging of the virus in baby hamster kidney cells. The 42 S RNA genome (about 13 kb ²) has been greatly deleted to generate the DI RNAs, which are heterogeneous both in size (about 2 kb) and sequence content. The DI RNAs offer a system for exploring binding sites for RNA polymerase and encapsidation signals, which must have been conserved in them since they are replicated and packaged. In order to study the structural organization of DI RNAs, and to analyze which regions from the genome have been conserved, we have determined the nucleotide sequences of (1) a 2.3 kb long DI RNA molecule, DI309, (2) 3′-terminal sequences (each about 0.3 kb) of two other DI RNAs, and (3) the nucleotide sequence of 0.4 kb at the extreme 5′ end of the 42 S RNA genome.The DI309 molecule consists of a duplicated region with flanking unique terminal sequences. A 273-nucleotide sequence is present in four copies per molecule. The extreme 5′-terminal nucleotide sequence of the 42 S RNA genome is shown to contain domains that are conserved in the two DI RNAs of known structure: DI309, and the previously sequenced DI301 (Lehtovaara et al., 1981). Here we report which terminal genome sequences are conserved in the DI RNAs, and how they have been modified, rearranged or amplified.     

Molecular cloning and long terminal repeat sequences of intracisternal A-particle genes in Mus caroli

We isolated DNA clones of intracisternal A-particle (IAP) genes from the genome of an Asian wild mouse, Mus caroli. A typical M. caroli IAP gene was 6.5 kilobase pairs in length and had long terminal repeat (LTR) sequences at both ends. The size of the LTR was 345 base pairs in clone L20, and two LTRs at both ends of this clone were linked to directly repeating cellular sequences of 6 base pairs. Each LTR possessed most of the structural features commonly associated with the retrovirus LTR. The restriction map of the M. caroli IAP gene resembled that of Mus musculus, although the M. caroli IAP gene was 0.4 kilobase pairs shorter than the M. musculus IAP gene in two regions. Sequence homology between the M. caroli and M. musculus IAP LTRs was calculated as about 80%, whereas the LTR sequence of the Syrian hamster IAP gene was about 60% homologous to the M. caroli LTR. The reiteration frequency of the M. caroli IAP genes was estimated as 200 to 400 copies per haploid genome, which is at least 10 times the reported value. These results suggest that the IAP genes observed in the genus Mus are present in multiple copies with structures closely resembling the integrated retrovirus gene.     

Comparison of the sequence organization of related retrovirus-like multigene families in three evolutionarily distant rodent genomes.

Sequences related to mouse intracisternal A-particle (IAP) genes have been isolated from rat and Syrian hamster gene libraries as recombinants in lambda phage. The sequences are moderately reiterated in both these genomes but their sequence organization in the hamster genome is different from that in the rat genome. Restriction analysis and electron microscopy indicate that the Syrian hamster IAP sequences represent a family of relatively homogeneous well-conserved units; in this, they resemble the mouse IAP genes. The rat sequences, in contrast, are heterogeneous. Both the hamster and rat IAP sequences contain regions homologous to mouse IAP genes interspersed with regions of apparent non-homology. The interspersed regions range in size from 0.5-1.0 kilobases (Kb). The regions of homology among the mouse, rat and Syrian hamster IAP sequences have been mapped to a 5-6 Kb internal region on the mouse IAP genes. Mouse IAP long terminal repeat (LTR) sequences were not detected in the rat and Syrian hamster genomes. We used the thermal stability of hybrids between cloned and genomic IAP sequences to measure family homogeneity. Mouse and Syrian hamster IAP sequences are homogeneous by this criterion, but the rat IAP sequences are heterogeneous with a Tm 6 degrees C below the self-hybrid. The contrasting organization of IAP-related elements in the genomes of these rodents indicates that amplification or homogenization of this sequence family has occurred independently and at different periods of time during their evolution.