DNA damage can be induced by a large number of physical and chemical agents from the environment as well as compounds produced by cellular metabolism. This type of damage can interfere with cellular processes such as replication and transcription, resulting in cell death and/or mutations. The low frequency of mutagenesis in cells is due to the presence of enzymatic pathways which repair damaged DNA. Several DNA repair genes (mainly from bacteria, yeasts and mammals) have been cloned and their products characterized. The high conservation, especially in eukaryotes, of the majority of genes related to DNA repair argues for their importance in the maintenance of life on earth. In plants, our understanding of DNA repair pathways is still very poor, the first plant repair genes having only been cloned in 1997 and the mechanisms of their products have not yet been characterized. The objective of our data mining work was to identify genes related to the base excision repair (BER) pathway, which are present in the database of the Sugarcane Expressed Sequence Tag (SUCEST) Project. This search was performed by tblastn program. We identified sugarcane clusters homologous to the majority of BER proteins used in the analysis and a high degree of conservation was observed. The best results were obtained with BER proteins from Arabidopsis thaliana. For some sugarcane BER genes, the presence of more than one form of mRNA is possible, as shown by the occurrence of more than one homologous EST cluster.
Animal colouration plays a key role in inter and intraspecific interactions, pre-eminently in mate signalling. When multiple types of colouration occur within sexes it is possible that they show alternative reproductive strategies. In lizards, most colouration studies do not incorporate how colour is perceived by conspecifics. Here, we used unbiased colour analysis methods (spectrophotometry and visual modelling) to test for sexual dimorphism and within male dichromatism in the Striped Lava Lizard. We found that males express two distinct colourations that are different from females in several dorsal and ventral body regions. Our results showed UV reflection at the throat, an important body region for signalling. Ventral patches, the coloured badge seen in adult males of Tropidurus spp., have two distinct colour classes within males (Y and B males). Morphs are best discriminated by blue and yellow chroma, and brightness. Body size had little influence on colouration, suggesting that colour may be linked to inheritance rather than growth. Our study clearly shows sexual dichromatism and the existence of colour morphs in this species. Moreover, morph differences in colouration are perceptible by conspecifics. These differences are not only between ventral patches, but also in other body parts such as the dorsum, previously considered as cryptic by human observers. We suggest that colouration at the ventral patches and throat might play a role in intraspecific interactions. Patches increase colour intensity during breeding season and are likely to be costly by pigment-based expression, whereas throat’s UV reflection might have a cost infringed by conspicuousness.
Signals that are used in animal communication may have multiple sensorial channels and functions. Animal communication integrates very distinct mechanisms such as behaviour, morphology and physiological secretions. Chemical signals occur in several contexts and are known to have a role in sexual selection. In many lizards, pheromones secreted through femoral pores are used to attract females and demark territory dominance. In lizard species without femoral pores, however, study of chemical signalling is negligible. Lizards of the genus Tropidurus have no ventral pores, but express melanic patches in their ventral thighs and cloacae (body regions linked to chemical communication in other lizards), which may play a role in both visual signalling and chemical signalling. Here, we describe the occurrence of pelvic rubbing—a chemical signalling behaviour—in two Tropidurus species, displayed in intraspecific agonistic intrasexual staged encounters. In addition, we compile a list of currently reported species that display this behaviour, checking for its social contexts and presence/absence of secretion pores. We analysed behaviours in conspecific trials between males of Tropidurus semitaeniatus and of T. hispidus during their breeding season. In T. semitaeniatus, displays of pelvic rubbing elicited aggressive responses from the opponents. Tropidurus hispidus, however, did not react to these conspecific displays. Pelvic rubbings were also partially linked to defecation in both species, which is likely due to secretions from internal urodeal glands expelled during defecation. Also, high rates of tongue flick behaviours during the encounters support the hypothesis that these lizards make use of chemical communication. Our observations corroborate previous suggestions that glandular scales—scales covered by generation glands produced at the epidermis across the lizards’ shedding cycles—are present in their melanic ventral patches. Our work also highlights the potential of characterizing such ventral patches as multimodal signalling badges. Further, we investigated the contexts in which pelvic rubbing is displayed adding to our understanding of the role played by chemical signalling in lizards without femoral pores.
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