Transcriptomic Insights into the Life History of Bolidophytes, the Sister Lineage to Diatoms.

Diatoms are perhaps the most diverse lineage of eukaryotic algae, with their siliceous cell wall and diplontic life history often considered to have played important roles in their extraordinary diversification. The characteristic diminution of the diatom cell wall over the course of vegetative growth provides a reliable, intrinsic trigger for sexual reproduction, establishing a direct link between the evolution of their cell-wall and life-history features. It is unclear, however, whether the diplontic life cycle of diatoms represents an ancestral or derived trait.

The first myriapod genome sequence reveals conservative arthropod gene content and genome organisation in the centipede Strigamia maritima.

Myriapods (e.g., centipedes and millipedes) display a simple homonomous body plan relative to other arthropods.

To "bee or not to bee" male or female? An educational primer for use with "the Am-tra2 gene is an essential regulator of female splice regulation at two levels of the sex determination hierarchy of the honeybee".

An article by Nissen et al. in the November 2012 issue of GENETICS emphasizes the importance of alternative splicing in the sex determination cascade of the honeybee Apis mellifera. This study demonstrates the application of reverse transcriptase PCR and RNA interference screens as genetic tools to better understand the regulation of transcription and splicing.

Inventory and phylogenetic analysis of meiotic genes in monogonont rotifers.

A long-standing question in evolutionary biology is how sexual reproduction has persisted in eukaryotic lineages. As cyclical parthenogens, monogonont rotifers are a powerful model for examining this question, yet the molecular nature of sexual reproduction in this lineage is currently understudied. To examine genes involved in meiosis, we generated partial genome assemblies for 2 distantly related monogonont species, Brachionus calyciflorus and B.

Functional and evolutionary insights from the genomes of three parasitoid Nasonia species.

We report here genome sequences and comparative analyses of three closely related parasitoid wasps: Nasonia vitripennis, N. giraulti, and N. longicornis.

Meiosis genes in Daphnia pulex and the role of parthenogenesis in genome evolution.

Background: Thousands of parthenogenetic animal species have been described and cytogenetic manifestations of this reproductive mode are well known. However, little is understood about the molecular determinants of parthenogenesis. The Daphnia pulex genome must contain the molecular machinery for different reproductive modes: sexual (both male and female meiosis) and parthenogenetic (which is either cyclical or obligate).

Signs of sex: what we know and how we know it.

The predominance of sexual reproduction indicates that it must confer profound benefits, considering its significant costs relative to asexuality. However, definitively determining whether a lineage engages in sex is often complicated by the potential for cryptic sex, especially among unfamiliar organisms. Here we consider the strengths and weaknesses of various molecular- and organismal-based approaches for recognizing signs of sex and describe their applications and relevance to evolutionary biology.

An expanded inventory of conserved meiotic genes provides evidence for sex in Trichomonas vaginalis.

Meiosis is a defining feature of eukaryotes but its phylogenetic distribution has not been broadly determined, especially among eukaryotic microorganisms (i.e. protists)-which represent the majority of eukaryotic 'supergroups'.

Using a meiosis detection toolkit to investigate ancient asexual "scandals" and the evolution of sex.

Sexual reproduction is the dominant reproductive mode in eukaryotes but, in many taxa, it has never been observed. Molecular methods that detect evidence of sex are largely based on the genetic consequences of sexual reproduction. Here we describe a powerful new approach to directly search genomes for genes that function in meiosis.

Diversity and evolution of 5S rRNA gene family organization in Pythium.

The 5S rRNA gene family organization among 87 species and varieties of Pythium was investigated to assess evolutionary stability of the two patterns detected and to determine which pattern is likely the ancestral state in the genus. Species with filamentous sporangia (Groups A-C according to the ITS phylogenetic tree for Pythium) had 5S genes linked to the rDNA repeat that were predominantly coded for on the DNA strand opposite to the one with the other rRNA genes ('inverted' orientation). A small group of species with contiguous sporangia (Group D) is related to Groups A-C but had unlinked 5S genes.

Functional genomic analysis of the ADP-ribosylation factor family of GTPases: phylogeny among diverse eukaryotes and function in C. elegans.

ADP-ribosylation factor (Arf) and Arf-like (Arl) proteins are a family of highly conserved 21 kDa GTPases that emerged early in the evolution of eukaryotes. These proteins serve regulatory roles in vesicular traffic, lipid metabolism, microtubule dynamics, development, and likely other cellular processes. We found evidence for the presence of 6 Arf family members in the protist Giardia lamblia and 22 members in mammals.

Development of a species-specific probe for Pythium insidiosum and the diagnosis of pythiosis.

Pythium insidiosum, the only species in the genus that infects mammals, is the etiological agent of pythiosis, a granulomatous disease characterized by cutaneous and subcutaneous lesions and vascular diseases. Accurate diagnosis of pythiosis and identification of its causal agent are often inconsistent with current immunological diagnostic methods. A species-specific DNA probe was constructed by using a 530-bp HinfI fragment from the ribosomal DNA intergenic spacer of P.

A molecular phylogeny of Pythium insidiosum.

Sequence analysis of the ribosomal DNA internal transcribed spacers (ITS) was used to establish phylogenetic relationships among 23 isolates of Pythium insidiosum, the etiological agent of pythiosis in mammals. The isolates were divided into three distinct clades that exhibited significant geographic isolation. Clade I consisted of isolates from North, Central, and South America, while clade II contained isolates from Asia and Australia.