Phylogenetic analysis of mammalian SIP30 sequences indicating accelerated adaptation of functional domain in primates.

SIP30, characterized by a coiled-coil functional domain, plays a key role in regulating synaptic vesicle exocytosis and is implicated in neuropathic pain resulting from peripheral nerve injury. Because neuropathic pain is studied in primates (including human), domesticated animals, and rodents, we conducted a phylogenetic analysis of SIP30 in selected species of these three groups of mammals. SIP30 exhibits a high degree of sequence divergence in comparison to its protein binding partners SNAP25 and ZW10, which show broad sequence conservation.

Remote Conversations To Enhance Class Experience in the Time of COVID: Co-Teaching with a Wingman Model.

Remote delivery poses numerous challenges, particularly for discussion-based classes. Here, we describe a class management model that uses a conversational approach between instructional coleaders to introduce topics and facilitate student discussions. The conversational approach enabled us to model various aspects of the scientific process, such as asking questions and generating hypotheses, aimed at an emergent subject, such as COVID-19.

The significance and scope of evolutionary developmental biology: a vision for the 21st century.

Evolutionary developmental biology (evo-devo) has undergone dramatic transformations since its emergence as a distinct discipline. This paper aims to highlight the scope, power, and future promise of evo-devo to transform and unify diverse aspects of biology. We articulate key questions at the core of eleven biological disciplines-from Evolution, Development, Paleontology, and Neurobiology to Cellular and Molecular Biology, Quantitative Genetics, Human Diseases, Ecology, Agriculture and Science Education, and lastly, Evolutionary Developmental Biology itself-and discuss why evo-devo is uniquely situated to substantially improve our ability to find meaningful answers to these fundamental questions.

Hox clusters of the bichir (Actinopterygii, Polypterus senegalus) highlight unique patterns of sequence evolution in gnathostome phylogeny.

Teleost fishes have extra Hox gene clusters owing to shared or lineage-specific genome duplication events in rayfinned fish (actinopterygian) phylogeny. Hence, extrapolating between genome function of teleosts and human or even between different fish species is difficult. We have sequenced and analyzed Hox gene clusters of the Senegal bichir (Polypterus senegalus), an extant representative of the most basal actinopterygian lineage.

Yeast Sec1p functions before and after vesicle docking.

Sec1/Munc18 (SM) proteins bind cognate soluble N-ethylmaleimide-sensitive factor attachment protein receptor (SNARE) complexes and stimulate vesicle membrane fusion. Before fusion, vesicles are docked to specific target membranes. Regulation of vesicle docking is attributed to some but not all SM proteins, suggesting specialization of this earlier function.

Role of SIP30 in the development and maintenance of peripheral nerve injury-induced neuropathic pain.

Using the chronic constriction injury (CCI) model of neuropathic pain, we profiled gene expression in the rat spinal cord, and identified SIP30 as a gene whose expression was elevated after CCI. SIP30 was previously shown to interact with SNAP25, but whose function was otherwise unknown. We now show that in the spinal cord, SIP30 was present in the dorsal horn laminae where the peripheral nociceptive inputs first synapse, co-localizing with nociception-related neuropeptides CGRP and substance P.

Hox cluster duplication in the basal teleost Hiodon alosoides (Osteoglossomorpha).

Large-scale--even genome-wide--duplications have repeatedly been invoked as an explanation for major radiations. Teleosts, the most species-rich vertebrate clade, underwent a "fish-specific genome duplication" (FSGD) that is shared by most ray-finned fish lineages. We investigate here the Hox complement of the goldeye (Hiodon alosoides), a representative of Osteoglossomorpha, the most basal teleostean clade.

Breakup of a homeobox cluster after genome duplication in teleosts.

Several families of homeobox genes are arranged in genomic clusters in metazoan genomes, including the Hox, ParaHox, NK, Rhox, and Iroquois gene clusters. The selective pressures responsible for maintenance of these gene clusters are poorly understood. The ParaHox gene cluster is evolutionarily conserved between amphioxus and human but is fragmented in teleost fishes.

Bichir HoxA cluster sequence reveals surprising trends in ray-finned fish genomic evolution.

The study of Hox clusters and genes provides insights into the evolution of genomic regulation of development. Derived ray-finned fishes (Actinopterygii, Teleostei) such as zebrafish and pufferfish possess duplicated Hox clusters that have undergone considerable sequence evolution. Whether these changes are associated with the duplication(s) that produced extra Hox clusters is unresolved because comparison with basal lineages is unavailable.

Molecular evolution of the HoxA cluster in the three major gnathostome lineages.

The duplication of Hox clusters and their maintenance in a lineage has a prominent but little understood role in chordate evolution. Here we examined how Hox cluster duplication may influence changes in cluster architecture and patterns of noncoding sequence evolution. We sequenced the entire duplicated HoxAa and HoxAb clusters of zebrafish (Danio rerio) and extended the 5' (posterior) part of the HoxM (HoxA-like) cluster of horn shark (Heterodontus francisci) containing the hoxa11 and hoxa13 orthologs as well as intergenic and flanking noncoding sequences.