24 research outputs found
Ancient Origin of the New Developmental Superfamily DANGER
Developmental proteins play a pivotal role in the origin of animal complexity and diversity. We report here the identification of a highly divergent developmental protein superfamily (DANGER), which originated before the emergence of animals (∼850 million years ago) and experienced major expansion-contraction events during metazoan evolution. Sequence analysis demonstrates that DANGER proteins diverged via multiple mechanisms, including amino acid substitution, intron gain and/or loss, and recombination. Divergence for DANGER proteins is substantially greater than for the prototypic member of the superfamily (Mab-21 family) and other developmental protein families (e.g., WNT proteins). DANGER proteins are widely expressed and display species-dependent tissue expression patterns, with many members having roles in development. DANGER1A, which regulates the inositol trisphosphate receptor, promotes the differentiation and outgrowth of neuronal processes. Regulation of development may be a universal function of DANGER family members. This family provides a model system to investigate how rapid protein divergence contributes to morphological complexity
Autism spectrum disorder, anxiety and severe depression in a male patient with deletion and duplication in the 21q22.3 region: A case report
In this report, a patient carrying a 650 kb deletion and a 759 kb duplication of chromosomal 21q22.3 region was described. Facial dysmorphic features, hypotonia, short stature, learning impairment, autism spectrum disorder, anxiety and depression were observed clinical characteristics. Mentioned copy number variants were the shortest in length reported so far. The current study hypothesized that the presence of a susceptibility locus for autism spectrum disorder associated with depression and anxiety may be located in a 200 kb region between the PCNT and PRMT2 genes. The current study aimed to provide insight into the human genome morbidity map of chromosome 21
Autism spectrum disorder, anxiety and severe depression in a male patient with deletion and duplication in the 21q22.3 region: A case report
In this report, a patient carrying a 650 kb deletion and a 759 kb duplication of chromosomal 21q22.3 region was described. Facial dysmorphic features, hypotonia, short stature, learning impairment, autism spectrum disorder, anxiety and depression were observed clinical characteristics. Mentioned copy number variants were the shortest in length reported so far. The current study hypothesized that the presence of a susceptibility locus for autism spectrum disorder associated with depression and anxiety may be located in a 200 kb region between the PCNT and PRMT2 genes. The current study aimed to provide insight into the human genome morbidity map of chromosome 21
Environmental drivers of the distribution of nitrogen functional genes at a watershed scale
Δημοσίευση σε επιστημονικό περιοδικόSummarization: To date only few studies have dealt with the biogeography of microbial communities at large spatial scales, despite the
importance of such information to understand and simulate ecosystem functioning. Herein, we describe the biogeographic
patterns of microorganisms involved in nitrogen (N)-cycling (diazotrophs, ammonia oxidizers, denitrifiers) as well as the
environmental factors shaping these patterns across the Koiliaris Critical Zone Observatory, a typical Mediterranean
watershed. Our findings revealed that a proportion of variance ranging from 40 to 80% of functional genes abundance could
be explained by the environmental variables monitored, with pH, soil texture, total organic carbon and potential
nitrification rate being identified as the most important drivers. The spatial autocorrelation of N-functional genes ranged
from 0.2 to 6.2 km and prediction maps, generated by cokriging, revealed distinct patterns of functional genes. The
inclusion of functional genes in statistical modeling substantially improved the proportion of variance explained by the
models, a result possibly due to the strong relationships that were identified among microbial groups. Significant
relationships were set between functional groups, which were further mediated by land use (natural versus agricultural
lands). These relationships, in combination with the environmental variables, allow us to provide insights regarding the
ecological preferences of N-functional groups and among them the recently identified clade II of nitrous oxide reducers.Presented on: FEMS Microbiology Ecolog
Χωρική κατανομή και αφθονία των λειτουργικών γονιδίων νιτροποιητών και απονιτροποιητών στην λεκάνη απορροής του ποταμού Κοιλιάρη
Μη διαθέσιμη περίληψηNot available summarizationΠαρουσιάστηκε στο: 7ο Πανελλήνιο Συνέδριο Οικολογία
Carbon and nitrogen distribution in bulk soil and in water-stable aggregates in a field amended with different organic substrates
Μη διαθέσιμη περίληψηNot available summarizationΠαρουσιάστηκε στο: CEST 201