Roland Perasso

Silk fibroin: Structural implications of a remarkable amino acid sequence

The amino acid sequence of the heavy chain of Bombyx mori silk fibroin was derived from the gene sequence. The 5,263‐residue (391‐kDa) polypeptide chain comprises 12 low‐complexity “crystalline” domains made up of Gly–X repeats and covering 94% of the sequence; X is Ala in 65%, Ser in 23%, and Tyr in 9% of the repeats. The remainder includes a nonrepetitive 151‐residue header sequence, 11 nearly identical copies of a 43‐residue spacer sequence, and a 58‐residue C‐terminal sequence. The header sequence is homologous to the N‐terminal sequence of other fibroins with a completely different crystalline region. In Bombyx mori, each crystalline domain is made up of subdomains of ∼70 residues, which in most cases begin with repeats of the GAGAGS hexapeptide and terminate with the GAAS tetrapeptide. Within the subdomains, the Gly–X alternance is strict, which strongly supports the classic Pauling–Corey model, in which β‐sheets pack on each other in alternating layers of Gly/Gly and X/X contacts. When fitting the actual sequence to that model, we propose that each subdomain forms a β‐strand and each crystalline domain a two‐layered β‐sandwich, and we suggest that the β‐sheets may be parallel, rather than antiparallel, as has been assumed up to now. Proteins 2001;44:119–122.

Comparison of molecular and paleontological data in diatoms suggests a major gap in the fossil record

Diatoms, unicellular eukaryotic algae with a siliceous skeleton, offer the rare advantage of displaying both an extensive fossil record and numerous extant species, thus providing the opportunity of confronting molecular and paleontological data in a protist group. A portion of the 28S ribosomal RNA was sequenced from 5 diatoms, the divergence times of which are well known. The nucleotide substitution rate was estimated in these unicellular eukaryotes and compared with the rate of multicellular eukaryotes, using a broad data base comprising metazoans and metaphytes. When using fossil record derived divergence times, our results show that the nucleotide substitution rate is about 5 times faster in diatoms than in chordates. But, when using the relative rate test, it is observed that, over a long time period, the nucleotide substitution rate may in fact have been slightly slower in diatoms than in chordates. For this contradiction, two possible explanations are proposed: (i) a failure of the relative rate test, (ii) a gap in the pre‐Jurassic diatom fossil record. We have checked that our results concerning the relative rate test were valid. Thus, the second hypothesis, which implies pre‐Jurassic diatom evolution, in fact already suggested by some non‐molecular evidences, is favoured. Decoupling of morphological differentiation from genetic speciation also appears to have occurred and may account in part for the underestimation of the dates of recent cladogenesis events.

Phylogeny of trichomonads based on partial sequences of large subunit rRNA and on cladistic analysis of morphological data.

ABSTRACT. Several domains of large subunit rRNA from nine trichomonad species have been sequenced. Molecular phylogenies obtained with parsimony and distance methods demonstrate the trichomonads are a monophyletic group which branches very early in the eukaryotic tree. the topology of the trees is in general agreement with traditional views on evolutionary and systematic relationships of trichomonads. A clear dichotomy is noted between the subfamily Trichomonadinae and the subfamily Tritrichomonadinae. In the latter subfamily, a second division separates the “Tritrichomonas muris‐type” species from the “Tritrichomonas augusta‐type” ones. Previous evolutionary schemes in which the Monocercomonadidae were regarded as the most “primitive” and the Trichomonadidae as more “evolved” are not in agreement with our molecular data. the emergence of Monocercomonas and Hypotrichomonas at the base of the Tritrichomonas lineage suggests a secondary loss of some cytoskeletal structures, the costa and undulating membrane in these genera. This is corroborated by the early branching position of Trichomitus. which possesses a costa and an undulating membrane and has usually been placed among the Trichomonadidae on the basis of cytological characters. A cladistic analysis was applied to the available morphological characters in order to produce a hierarchical grouping of the taxa reflecting their morphological diversity. Supplementary key words. Evolution, molecular phylogeny, morphological cladistic analysis.

PHYLOGENETIC ANALYSIS AND GENOME SIZE OF OSTREOCOCCUS TAURI (CHLOROPHYTA, PRASINOPHYCEAE)

Ostreococcus tauri Courties et Chrétiennot‐Dinet is the smallest described autotrophic eukaryote dominating the phytoplanktonic assemblage of the marine Mediterranean Thau lagoon (France). Its taxonomic position was partly elucidated from ultrastructure and high‐pressure liquid chromatography (HLPC) pigment analysis. The sequence analysis of the 18S rDNA gene of O. tauri measured here is available in EMBL Nucleotide Sequence Database (accession number: Y15814) and allowed to clarify its phylogenetic position. O. tauri belongs to the Prasinophyceae and appears very close to Mantoniella, a typical scaly Prasinophyceae, morphologically very different from the naked and coccoid Ostreococcus. An electrophoretic analysis of O. tauri shows that the nucleus contains 10.20 mbp. This small genome, fragmented into 14 chromosomes ranging in size from 300 to 1500 kbp, confirms the minimalist characteristics of Ostreococcus tauri.

Messenger RNA in Dormant Cells of Sterkiella histriomuscorum (Oxytrichidae): Identification of Putative Regulatory Gene Transcripts

In the absence of food, the oxytrichid Sterkiella histriomuscorum, like many ciliates, enters into dormancy and transforms into a round and walled encysted cell. When transferred back into a feeding medium, the cyst re-transforms into a vegetative cell in a few hours. This encystment-excystment pathway, which is common to many free-living and parasitic protists, is still poorly understood at the molecular level. In order to identify potential dormant transcripts in the cysts of Sterkiella, we have constructed cDNA libraries from mature cysts. Transcripts have been isolated confirming the presence of a mRNA pool in the dormant cells. The sequence analysis of two cDNA indicates open reading frames which show significant similarities to known proteins involved in mechanisms of regulation: 1) nifR3, an element of the nitrogen regulatory system in bacteria and 2) CROC-1, a newly identified human transcription factor. The two corresponding macronuclear genes represent the first putative regulatory genes isolated in ciliates. From a differential screening of the cDNA library against vegetative cDNA, one cyst-specific (and very abundant) transcript has been isolated but the product has not yet been identified. The possible involvment of these new ciliate genes in the excystment process is discussed.

Molecular evolution of the 5'-terminal domain of large-subunit rRNA from lower eukaryotes. A broad phylogeny covering photosynthetic and non-photosynthetic protists.

This paper summarizes the present status of an analysis of protist phylogeny using rapid partial sequencing of 28S rRNA. Data from 12 protistan phyla are now available and have been used to construct a tentative dendrogram based on a distance matrix method. The tree is robust and has considerable internal consistency. The following salient points are observed: a number of flagellate groups (particularly Euglenozoa) emerge very early among eukaryotes, whereas ciliates and dinoflagellates emerge late, suggesting that some characteristics that had been considered as primitive may in fact be derived. Both chlorophytic and chromophytic photosynthetic protists emerge very late in the tree, close to the Metazoa-Metaphyta-Fungi radiation, suggesting relatively late occurrence of the photosynthetic symbiosis. Taxonomic and phylogenetic information is also obtained within a phylum where rRNA of enough species are sequenced. A deep trichotomy is thus observed within the ciliates. The data are discussed with respect to classical protist phylogenies.

Searching for Excystment-Regulated Genes in Sterkiella histriomuscorum (Ciliophora, Oxytrichidae): A mRNA Differential Display Analysis of Gene Expression in Excysting Cells

Abstract In the absence of food, the oxytrichid Sterkiella histriomuscorum transforms like many ciliates into resting cysts. When transferred back into feeding medium, the cyst re-transforms into a vegetative cell. The entry into and exit from the dormant cyst stage are complex developmental processes still poorly investigated at the molecular level. Assuming that these changes in state could involve changes in gene expression, we have used the technique of mRNA differential display to detect differentially expressed genes in cysts and two different stages of excysting cell. Variation in the temporal expression pattern of transcripts could be detected and, in using an inverse-PCR strategy on circularized macronuclear DNA, we have sequenced the macronuclear genes of three of the isolated cDNAs, which correspond to 1) a nucleotide-binding domain-encoding gene, 2) a DHHC-domain-carrying gene, and 3) a phosphatase type 2C-encoding gene. For the first two genes, Northern blot analyses supported an excystment-associated regulated gene expression. We discuss their possible role during excystment and we show that the combination of differential display and inverse PCR constitutes a powerful approach to isolate excystment-regulated genes in hypotrichs.

The 62-kb upstream region of Bombyx mori fibroin heavy chain gene is clustered of repetitive elements and candidate matrix association regions

We sequenced an 80 kb DNA region containing the complete sequence of the silkworm Bombyx mori fibroin gene and its flanking, especially the upstream, regions (-62 kb). About 30% of the 62 kb upstream region is composed of repetitive elements including short interspersed elements Bm1, long interspersed elements L1Bm and mariner-like elements Bmmar1 which are widespread over the silkworm genome. This 62 kb region is also enriched of commonly considered matrix association region (MAR) motifs. A total of 25 individual MAR recognition signatures (MRSs) were identified, with 24 at the upstream and one at the downstream region. Combining two newly developed MAR prediction programs (MAR-finder and Chrclass), ten candidate MARs were predicted, with five containing MRS and seven related to the repetitive elements. The wide distribution of nested repetitive elements, candidate MARs, DNase I hypersensitive sites and other potential regulatory factors recognition sites indicates this region is probably a unique huge cis-acting element contributing to the regulation of the spatial and temporal specificity and efficiency of fibroin gene expression.

The emergence of eukaryotic algae within the protists: A molecular phylogeny based on ribosomal RNA sequencing

The comparative analysis of homologous sequences of informational macromolecules (i.e. proteins or directly DNA) is providing a remarkably powerful tool to establish phylogenetic relationships among living organisms. Knowledge of the sequence of emergence of biological groups in turn illuminates a large number of key biological issues since, as stated long ago by Th. Dobzhansky, “Nothing in biology makes sense except in the light of evolution”. There are several advantages to sequence data as compared to morphological, physiological or biochemical ones for establishing phylogenetic relationships: the sequencing of a single set of homologous genes or gene products in different species can yield numerous characters simultaneously. In fact each nucleotide (or amino acid) is potentially susceptible of corresponding to a character difference. Thus tens or even hundreds of characters can be screened through the comparative analysis of one large gene; these characters evolve, to a first rough approximation, independently of each other i.e. substitution at one site is not necessarily related to substitution at another site. This is more difficult to evaluate for morphological characters whose correlated divergence may simply mean that they are under the control of the same genetic modification; molecular characters are easier to quantify and, eventually, to weigh than morphological ones; finally, and possibly most importantly, sequencing data can be obtained, at least for some widespread genes, even when morphology is exceedingly reduced or deformed ! (i.e. prokaryotes, poorly differentiated eukaryotes, parasites, and even DNA containing organelles).

Molecular phylogeny of unicellular eukaryotes based on partial sequences of ribosomal RNA

Abstract In order to construct a broad molecular phylogeny of protists, we have sequenced the 5’ terminal part of the nuclear encoded large subunit ribosomal RNA from representatives of several pro‐tistan phyla. Using a distance matrix‐method we have constructed a dendrogram which reveals, in agreement with classical systematics, a number of clusters separated by large evolutionary distances (those of the ciliates, the chromophytes, the chlorophytes, ...). The divergence of these groups is far antedated by the emergence of some flagellated groups such as the Euglenozoa. From this analysis, several major biological inferences can be made among which the ancient origin of the flagellar apparatus and the late occurrence of chloroplastic endosymbiosis.