The sequence of the gorilla fetal globin genes: evidence for multiple gene conversions in human evolution

Two fetal globin genes (G gamma and A gamma) from one chromosome of a lowland gorilla (Gorilla gorilla gorilla) have been sequenced and compared to three human loci (a G gamma-gene and two A gamma-alleles). A comparison of regions of local homology among these five sequences indicates that long after the duplication that produced the two nonallelic gamma-globin loci of catarrhine primates, about 35 million years (Myr) ago, at least one gene conversion event occurred between these loci. This conversion occurred not long before the ancestral divergence (about 6 Myr ago) of Homo and Gorilla. After this ancestral divergence, a minimum of three more gene conversion events occurred in the human lineage. Each human A gamma-allele shares specific sequence features with the gorilla A gamma-gene; one such distinctive allelic feature involves the simple repeated sequence in IVS 2. This suggests that early in the human lineage the A gamma-genes may have undergone a crossing-over event mediated by this simple repeated sequence. The DNA sequences from coding regions of both G gamma- and A gamma-loci, a comparison of 292 codons in the corresponding gorilla and human genes, show an unusually low evolutionary rate, with only two nonsilent differences and, surprisingly, not even one silent substitution. The two nonsynonymous substitutions observed predict a glycine at codon 73 and an arginine at codon 104 in the gorilla A gamma-sequence rather than aspartic acid and lysine, respectively, in human A gamma. Because only arginine has been found at position 104 in gamma-chains of Old World monkeys, it may represent the ancestral residue lost in gorilla and human G gamma-chains and in the human A gamma-chain. Possibly the arginine codon (AGG) was replaced by the lysine codon (AAG) in the G gamma-gene of a common ancestor of Homo and Gorilla and then was transferred to the A gamma-gene by subsequent conversions in the human lineage. DNA sequence conversions, similar to that attributed to the fetal gamma-globin genes, appear to be relatively frequent phenomena and, if widespread throughout the genome, may have profound evolutionary consequences.      

DNA sequence polymorphism within hominoid species exceeds the number of phylogenetically informative characters for a HOX2 locus.

Within- and between-species variability was examined in a noncoding 238-bp segment of the HOX2 cluster. DNA of 4-26 individuals of four species (Pongo pygmaeus, Pan troglodytes, Gorilla gorilla, and Homo sapiens) was PCR amplified and electrophoresed in a denaturing gradient gel to screen for variability. Coupled amplification and sequencing was used to determine the complete sequence for each of the different alleles identified, one each in humans and orangutans, two in chimpanzees, and four in gorillas. Maximum-parsimony methods were used to construct a gene tree for these sequences. Alleles in all four species cluster into groups consisting of only one species (i.e., alleles within a species are monophyletic). The number of base-pair differences observed among alleles within P. troglodytes and within G. gorilla is larger than the number of base-pair substitutions that phylogenetically link Pan with Homo. Given these and other published data, it is premature to accept any particular phylogenetic tree that relates these three genera through two separate speciation events.     

The mtDNA sequence of the ostrich and the divergence between paleognathous and neognathous birds

The complete mitochondrial DNA (mtDNA) molecule of the ostrich, Struthio camelus, was sequenced. The size of the molecule is 16,591 nucleotides. Since the ostrich represents the paleognathous birds, comparison with the mtDNA of the neognathous chicken, the only avian species reported so far in databases, made it possible to identify common and, probably, general avian mtDNA characteristics. Relative to other vertebrates, the avian NADH6 and tRNA-Glu genes are positioned upstream of the control region rather than the cytochrome b gene. The NADH3 gene of the ostrich is terminated by a stop codon at position 207. Thus, the gene is about 140 nucleotides shorter than in other vertebrates. The sequence for L-strand origin of replication is missing in both birds, and four transfer RNA genes of the two avian mtDNAs deviate from common characteristics of tRNAs of vertebrate mtDNAs by having an adenine (and not a thymidine) at position 8. Due to the absence of suitable fossils, most paleontological datings of avian divergences are conjectural. Molecular dating of the divergence between the ostrich and the chicken indicates that these two avian lineages separated 80-90 MYA. Phylogenetic analysis of complete cytochrome b genes of six avian orders showed that Passeriformes represent the earliest divergence among recent birds, contradicting the commonly accepted notion of a basal position of the Palaeognathae among recent birds.      

comparison between the complete mitochondrial DNA sequences ofHomo and the common chimpanzee based on nonchimeric sequences

The complete mitochondrial DNA (mtDNA) molecules ofHomo and of the common chimpanzee were sequenced. Each sequence was established from tissue of one individual and thus nonchimeric. Both sequences were assembled in their entirety from natural (not PCR amplified) clones. Comparison with sequences in the literature identified the chimpanzee specimen asPan troglodytes verus, the West African variety of the species. The nucleotide difference between the complete human and chimpanzee sequences is 8.9%. The difference between the control regions of the two sequences is 13.9% and that between the remaining portions of the sequences 8.5%. The mean amino acid difference between the inferred products of the 13 peptide-coding genes is 4.4%. Sequences of the complete control regions, the complete 12S rRNA genes, the complete cytochromeb genes, and portions of the NADH4 and NADH5 genes of two other chimpanzee specimens showed that they were similar but strikingly different from the same regions of the completely sequenced molecule fromPan troglodytes verus. The two specimens were identified asPan troglodytes troglodytes, the Central African variety of the common chimpanzee.     

Ectocranial suture closure in Pan troglodytes and Gorilla gorilla: pattern and phylogeny

The order in which ectocranial sutures undergo fusion displays species-specific variation among primates. However, the precise relationship between suture closure and phylogenetic affinities is poorly understood. In this study, we used Guttman Scaling to determine if the modal progression of suture closure differs among Homo sapiens, Pan troglodytes, and Gorilla gorilla. Because DNA sequence homologies strongly suggest that P. troglodytes and Homo sapiens share a more recent common ancestor than either does with G. gorilla, we hypothesized that this phylogenetic relationship would be reflected in the suture closure patterns of these three taxa. Results indicated that while all three species do share a similar lateral-anterior closure pattern, G. gorilla exhibits a unique vault pattern, which, unlike humans and P. troglodytes, follows a strong posterior-to-anterior gradient. P. troglodytes is therefore more like Homo sapiens in suture synostosis.     

Phylogeny, neoteny and growth of the cranial base in hominoids

This study tests the hypothesis that there is a general pattern in the growth of the cranial base of Homo sapiens that is 'essentially neotenous' [Gould, 1977]. Juvenile and adult crania of Homo sapiens, Gorilla gorilla, Pan troglodytes and Pongo pygmaeus were studied and the cross-sectional growth curves for 10 measurements made on the cranial base (as viewed in norma basilaris) were compared. The results of this study suggest that relatively simple modifications to the timing or pattern of growth are insufficient to explain the observed morphological differences between the cranial base of modern Homo sapiens and the great apes.     

Parasitological evidence pertaining to the phylogeny of the hominoid primates

A systematic review of parasitological data pertaining to the phylogeny of hominoid primates revealed considerable internal consistency and congruence with non-parasitological data. Hylobatids are supported as the sister-group of Pongo + Pan + Gorilla , the 'Great Apes'. Within the Great Apes, Pan + Gorilla are sister taxa. Multiple analyses of presence/absence data place Homo with cercopithecids, probably an artefact of humans' widespread occurrence and polymorphic feeding and living habits. Explicit phylogenetic hypotheses are available for only two parasite groups. Hookworms of the genus Oesophagostomum subgenus Conoweberia place Homo as the sister-group of Pan + Gorilla , whereas pinworms of the genus Enterobius place Homo as the sister-group of Pongo + Pan + Gorilla . This disagreement among data sets with regards to the placement of Homo , combined with the complete agreement about the placement of the other hominoids, is consistent with uncertainties in current findings from other sets of data.     

Characterization of the gorilla carboxyl ester lipase locus, and the appearance of the carboxyl ester lipase pseudogene during primate evolution.

In this study we report on the isolation and characterization of the gorilla carboxyl ester lipase gene, CEL, and the corresponding CEL pseudogene. We also report on the age of the CEL pseudogene.The gorilla CEL gene is 10.5kb long and comprises 11exons intervened by introns similar to the situation in man, mouse and rat. The encoded protein is 998amino acids long and includes a 23amino acid-long leader peptide. Comparison of the coding sequence, excluding exon 11, of CEL from gorilla and man reveals a 97% similarity. Exon 11, which encodes the characteristic proline rich repeats, contains 39 repeated units in gorilla compared to 16 in man. A truncated CEL pseudogene, with the same organization as that found in man, is also shown to be present in the gorilla genome. The gorilla CEL pseudogene is 4.9kb in length and consists of 5exons interrupted by introns. Southern analysis of the gorilla CEL locus shows that the locus is arranged in a similar way as in man with the functional CEL gene being the most 5' one.To bring further insight to the events involved in the rearrangement of the CEL locus, genomic Southern analyses were performed across several primates; Homo sapiens, Pan troglodytes, Gorilla gorilla, Pongo pygmaeus and Macaca arctoides. Results presented show that the CEL gene duplication occurred prior to the separation of Hominidae (man, chimpanzee, gorilla and orangutan) from Old World monkeys (macaque). The deletion of the original CEL gene giving rise to the truncated version of the CEL gene seems, however, to be restricted to man and the great apes only.     

圆臀大黾蝽(昆虫纲,半翅目,黾蝽科)线粒体全基因组注释(英文)

昆虫纲半翅目异翅亚目黾蝽科圆臀大黾蝽 Aquarius paludum ( Fabricius,1794) 已成为生物学研究的理想生物材料之一,为更全面了解其分子生物学特征,本研究测定了圆臀大黾蝽 Aquarius paludum线粒体基因组全序列。该基因组全长15 380 bp,为双链环状 D N A 分子,包含 13 个蛋白编码基因、22 个 tRNA 基因、2 个 rRNA 基因及一个控制区。其基因排序与已报道的其它大部分异翅亚目类群排列方式相同。该基因组基因排列紧密,共观察到 64 bp 基因间隔 ( 除控制区 781 bp 外) 与 33 bp 基因重叠。全基因组 AT 含量为75. 7 % ,而控制区 AT 含量仅为 66. 2 % ,密码子使用也显示出 AT 使用偏好。13 个蛋白编码基因中,除 COⅠ、ND5 使用 TTG 作为起始密码子外,其余使用 ATV。此外,7 个蛋白编码基因使用常规三联终止密码子 TAA,TAG 作为终止密码子,其余以 T 作为终止密码子,下游为同链编码的tRN A 基因。在 tRN A-Ser ( G C T ) 二级结构中,D HU 臂缺失,未形成典型的三叶草结构。     

Chimpanzee fetal G gamma and A gamma globin gene nucleotide sequences provide further evidence of gene conversions in hominine evolution

The fetal globin genes G gamma and A gamma from one chromosome of a chimpanzee (Pan troglodytes) were sequenced and found to be closely similar to the corresponding genes of man and the gorilla. These genes contain identical promoter and termination signals and have exons 1 and 2 separated by the conserved short intron 1 (122 bp) and exons 2 and 3 separated by the more rapidly evolving, larger intron 2 (893 bp and 887 bp in chimpanzee G gamma and A gamma, respectively). Each intron 2 has a stretch of simple sequence DNA (TG)n serving possibly as a "hot spot" for recombination. The two chimpanzee genes encode polypeptide chains that differ only at position 136 (glycine in G gamma and alanine in A gamma) and that are identical to the corresponding human chains, which have aspartic acid at position 73 and lysine at 104 in contrast to glycine and arginine at these respective positions of the gorilla A gamma chain. Phylogenetic analysis by the parsimony method revealed four silent (synonymous) base substitutions in evolutionary descent of the chimpanzee G gamma and A gamma codons and none in the human and gorilla codons. These Homininae (Pan, Homo, Gorilla) coding sequences evolved at one-tenth the average mammalian rate for nonsynonymous and one-fourth that for synonymous substitutions. Three sequence regions that were affected by gene conversions between chimpanzee G gamma and A gamma loci were identified: one extended 3' of the hot spot with G gamma replaced by the A gamma sequence, another extended 5' of the hot spot with A gamma replaced by G gamma, and the third conversion extended from the 5' flanking to the 5' end of intron 2, with G gamma replaced here by the A gamma sequence. A conversion similar to this third one has occurred independently in the descent of the gorilla genes. The four previously identified conversions, labeled C1-C4 (Scott et al. 1984), were substantiated with the addition of the chimpanzee genes to our analysis (C1 being shared by all three hominines and C2, C3, and C4 being found only in humans). Thus, the fetal genes from all three of these hominine species have been active in gene conversions during the descent of each species.      

Growth changes in internal and craniofacial flexion measurements.

Growth changes in both internal and craniofacial flexion angles are presented for Pan troglodytes, Gorilla gorilla, and modern humans. The internal flexion angle (IFA) was measured from lateral radiographs, and the craniofacial flexion angle (CFA) was calculated from coordinate data. Stage of dental development is used as a baseline for examination of growth changes and nonparametric correlations between flexion angles and dental development stage are tested for significance. In Gorilla, the IFA increases during growth. The IFA is relatively stable in Pan and modern humans. Pan and Gorilla display an increase in the CFA. However, this angle decreases during growth in modern humans. Flexion angles were derived from coordinate data collected for several early hominid crania. Measurements for two robust australopithecine crania indicate strong internal flexion. It has been suggested that cerebellar expansion in this group may relate to derived features of the posterior cranial base. In general, australopithecine crania exhibit craniofacial flexion intermediate between great apes and modern humans. The "archaic" Homo sapiens specimen from Kabwe is most similar to modern humans.     

The mitochondrial genome of the tapeworm Taenia solium: a finding of the abbreviated stop codon U

The complete nucleotide sequence of the tapeworm Taenia solium mitochondrial DNA (mtDNA) has been determined. The sequence is 13,709 base pairs in length and contains 36 genes (12 for proteins involved in oxidative phosphorylation, 2 for ribosomal RNAs, and 22 for transfer RNAs). The gene content and organization of the T. solium mtDNA are identical to those of other taeniid mtDNAs. All genes are transcribed in the same direction, and all protein-coding genes appear to initiate with the AUG or GUG codon. In a gene for NADH dehydrogenase subunit 1, the abbreviated stop codon U was confirmed for the first time in flatworm mtDNAs.     

DNA sequence at the end of the cI gene in bacteriophage lambda.

The nucleotide sequence of 57 base pairs near the end of the cI gene in phage lambda is presented. This sequence was determined by direct sequencing techniques and includes the codons for 11 carboxyterminal aminoacids of the cI product, the lambda repressor. The sequence reveals that the cI gene, which has recently been shown to have a unique initiation region, is terminated by a UGA codon. A GUG triplet, which could act as a translation start signal for the rex gene occurs 8 base pairs beyond the cI termination codon. This GUG triplet is preceded by a sequence that could serve as a strong ribosome binding site for the rex message.     

Distances électrophorétiques entre l'Homme,le Chimpanzé (Pan troglodytes) et le Gorille (Gorilla gorilla) basées sur la mobilité des enzymes érythrocytaires

Summary Electrophoretic mobilities of homologous erythrocyte enzymes at 21 loci studied in man (Homo sapiens), chimpanzee (Pan troglodytes) and gorilla (Gorilla gorilla) led to estimations of the genetic distances between the three species: If each form is placed at a corner of an isoscele triangle, the distance between the chimpanzee and either of the other two is greater than that between the latter two.     

Comparison of cranial ontogenetic trajectories among great apes and humans

Molecular data suggest that humans are more closely related to chimpanzees than either is to the gorillas, yet one finds the closest similarity in craniofacial morphology to be among the great apes to the exclusion of humans. To clarify how and when these differences arise in ontogeny, we studied ontogenetic trajectories for Homo sapiens, Pan paniscus, Pan troglodytes, Gorilla gorilla and Pongo pygmaeus. A total of 96 traditional three-dimensional landmarks and semilandmarks on the face and cranial base were collected on 268 adult and sub-adult crania for a geometric morphometric analysis. The ontogenetic trajectories are compared by various techniques, including a new method, relative warps in size-shape space. We find that adult Homo sapiens specimens are clearly separated from the great apes in shape space and size-shape space. Around birth, Homo sapiens infants are already markedly different from the great apes, which overlap at this age but diverge among themselves postnatally. The results suggest that the small genetic differences between Homo and Pan affect early human ontogeny to induce the distinct adult human craniofacial morphology. Pure heterochrony does not sufficiently explain the human craniofacial morphology nor the differences among the African apes.     

Complete mitochondrial genome of the boreal digging frog Kaloula borealis (Anura, Microhylidae)

We sequenced the complete mitochondrial genome from the boreal digging frog Kaloula borealis. The genome sequence was 17,173 bp in size, and the gene order and contents were identical to those of previously reported amphibian mitochondrial genomes. Of 13 protein-coding genes (PCGs), 5 genes (CO2, ATPase 6, CO3, ND3, and ND4) had incomplete stop codons. Also ND1 gene used GTG as a start codon, while CO1 and ND5 genes used AGG as a stop codon. The base composition of K. borealis mitogenome showed a strong anti-G bias (6.11%) on the 3rd position of PCGs.     

Growth changes in measurements of upper facial positioning

Growth changes in the position of the midline upper face are examined for samples of Pan troglodytes, Gorilla gorilla, and modern humans. Horizontal and vertical distances between nasion and the anterior end of the cribriform plate are plotted against stage of dental development. Kendall's nonparametric correlations between facial positioning and stage of dental development are tested for significance. In African apes, the upper face becomes more projecting and positioned higher relative to the anterior cranial base. The extent of this horizontal and vertical separation reflects primarily facial size. In modern humans, the upper face becomes more projecting but is relatively stable in its vertical position. Comparison of Pan and modern human crania in the youngest dental age category indicates that the upper face of modern humans is positioned lower early in postnatal life. The position of the upper face (glabella) relative to the anterior and posterior cranial base is presented for several fossil hominid crania. The fossil crania are similar to Pan and modern humans in facial projection relative to the anterior cranial base. However, glabella is positioned low in the fossil crania. Total facial projection (relative to hormion) for Sts 5 is similar to the mean for Gorilla. Fossil Homo and robust australopithecine crania display very projecting upper faces. We suggest that the upper face of Homo is projecting due to the length of the anterior cranial fossa, while robust australopithecines possess a thick frontal bone.     

An allometric study of the frontal sinus in Gorilla, Pan and Pongo

There is considerable speculation about the role and significance of the paranasal sinuses in the Hominoidea, and this study aims to present new data about an old problem from cephalograms of dried crania. Measurements of frontal sinus volumes were determined for Gorilla gorilla gorilla; G. gorilla beringei and Pan troglodytes. By adopting an allometric approach it was determined that the frontal sinus volume of Gorilla is relatively smaller than that of Pan, and that the frontal sinus of G. g. gorilla is relatively smaller than that of G. g. beringei. Frontal sinus volume scales in a positive allometric fashion relative to skull length. Since the slope is steeper for Pan, frontal sinus volume is increasing at a faster rate than in Gorilla. Sexual dimorphism in frontal sinus volume is present. Thirty crania of Pongo were investigated for evidence of pneumatization of the frontal bone. In no case was secondary invasion of the frontal bone by the maxillary antrum observed. In Gorilla, the nasal cavity volume scales isometrically with skull length. The scaling relationships discussed do not support any 'functional' role of the frontal sinus associated with nasal function but suggest a 'structural' role associated with craniofacial architecture.