The recent explosive adaptive radiation of cichlids in the great lakes of Africa has attracted the attention of both morphologists and molecular biologists. To decipher the phylogenetic relationships ...among the various taxa within the family Cichlidae is a prerequisite for answering some fundamental questions about the nature of the speciation process. In the present study, we used the random amplification of polymorphic DNA (RAPD) technique to obtain sequence differences between selected cichlid species. We then designed specific primers based on these sequences and used them to amplify template DNA from a large number of species by the polymerase chain reaction (PCR). We sequenced the amplified products and searched the sequences for indels and shared substitutions. We identified a number of such characters at three loci--DXTU1, DXTU2, and DXTU3--and used them for phylogenetic and cladistic analysis of the relationships among the various cichlid groups. Our studies assign an outgroup position to Neotropical cichlids in relation to African cichlids, provide evidence for a sister-group relationship of tilapiines to the haplochromines, group Cyphotilapia frontosa with the lamprologines of Lake Tanganyika, place Astatoreochromis alluaudi to an outgroup position with respect to other haplochromines of Lakes Victoria and Malawi, and provide additional support for the monophyly of the remaining Lake Victoria haplochromines and the Lake Malawi haplochromines. The described approach holds great promise for further resolution of cichlid phylogeny.
The major histocompatibility complex (Mhc) consists of class I and class II genes. In the human Mhc (HLA) class II genes, nine DRB loci have been identified. To elucidate the origin of these ...duplicated loci and allelic divergences at the most polymorphic DRB1 locus, introns 4 and 5 as well as the 3' untranslated region (altogether approximately 1,000 base pairs) of seven HLA-DRB loci, three HLA-DRB1 alleles, and nine nonhuman primate DRB genes were examined. It is shown that there were two major diversification events in HLA-DRB genes, each involving gene duplications and allelic divergences. Approximately 50 million years (my) ago, DRB1*04 and an ancestor of the DRB1*03 cluster (DRB1*03, DRB1*15, and DRB3) diverged from each other and DRB5, DRB7, DRB8, and an ancestor of the DRB2 cluster (DRB2, DRB4, and DRB6) arose by gene duplication. Later, about 25 my ago, DRB1*15 diverged from DRB1*03, and DRB3 was duplicated from DRB1*03. Then, some 20 my ago, the lineage leading to the DRB2 cluster produced two new loci, DRB4 and DRB6. The DRB1*03 and DRB1*04 allelic lineages are extraordinarily old and have persisted longer than some duplicated genes. The orthologous relationships of DRB genes between human and Old World monkeys are apparent, but those between Catarrhini and New World monkeys are equivocal because of a rather rapid expansion and contraction of primate DRB genes by duplication and deletion.
Complementary DNA clones coding for the catalytic unit of the enzyme glucose-6-phosphatase (G6Pase) were obtained from Haplochromis nubilus and Haplochromis xenognathus, two cichlid fish species from ...Lake Victoria. The translated sequence of these two cDNAs identifies a polypeptide consisting of 352 amino acid residues and showing a 54.4% similarity to the human form of G6Pase. The amino acid sequences of the two fish species are identical. The comparison of the fish amino acid sequence with the corresponding sequences of rat, mouse, and human G6Pase revealed that the amino acid residues, which are involved in G6Pase catalysis in humans, are also conserved in fish G6Pase. Northern blot analysis showed that G6Pase is expressed at the same level in 6- and 10-day-old fish. A three base pair insertion/deletion polymorphism was found in the 3′-untranslated region of the fish G6Pase gene. The polymorphism will be a useful marker in a phylogenetic study of Lake Victoria cichlids.
The haplochromine cichlid species flocks of the East African Great Lakes are one of the best examples of adaptive radiation. Analysis of genetic variation among these species provides valuable ...information on species relationships and timing of speciation events. Although the haplochromine cichlids generally display little genetic variation, the major histocompatibility complex (Mhc) genes have been found to be highly variable. A study of the linkage relationships of the Mhc class I A genes in the cichlid fish Oreochromis niloticus was therefore undertaken. Class I loci were identified, and their segregation in seven mothers and their haploid embryos was determined. In total, 56 class I A sequences were found among the seven families. A strong concordance of segregation was observed in five haplotypes among the embryos, indicating a close linkage of all loci. The number of loci per haplotype varied from 11 to 17, while the total number of distinct loci found among all families was 22. These findings show that all class I A loci are linked in a single genetic cluster in O. niloticus.