The Amphioxus Hox Cluster: Characterization, Comparative Genomics, and Evolution

Amemiya, Chris T., Prohaska, Sonja J., Hill-Force, Alicia, Cook, April, Wasserscheid, Jessica, Ferrier, David E.K., Anaya, Juan Pascal, Garcia-Fernández, Jordi, Dewar, Ken, Stadler, Peter F.

04 October 2018

The amphioxus Hox cluster is often viewed as “archetypal” for the chordate lineage. Here we present a descriptive account of the 448kb region spanning the Hox cluster of the amphioxus Branchiostoma floridae from Hox14 to Hox1.We provide complete coding sequences of all 14 previously described amphioxus sequences and describe a detailed analysis of the conserved non-coding regulatory sequence elements. We find that the posterior part of the Hox cluster is so highly derived that even the complete genomic sequence is insufficient to decide whether the posterior Hox genes arose by independent duplications or whether they are true orthologs of the corresponding gnathostome paralog groups. In contrast, the anterior region is much better conserved. The amphioxus Hox cluster strongly excludes repetitive elements with the exception of two repeat islands in the posterior region. Repeat exclusion is also observed in gnathostomes, but not protostome Hox clusters. We thus hypothesize that the much shorter vertebrate Hox clusters are the result of extensive resolution of the redundancy of regulatory DNA following the genome duplications rather than the consequence of a selection pressure to remove non-functional sequence from the cluster.

Biochemical analysis of CYP74-enzymes in Physcomitrella patens

Scholz, Julia Christine

19 April 2013

No description available.

570

cytochrome P450

CYP74-enzymes

Physcomitrella patens

Branchiostoma floridae

Biologie (PPN619462639)

The evolution and regulation of the chordate ParaHox cluster

Garstang, Myles Grant

January 2016

The ParaHox cluster is the evolutionary sister of the Hox cluster. Like the Hox cluster, the ParaHox cluster is subject to complex regulatory phenomena such as collinearity. Despite the breakup of the ParaHox cluster within many animals, intact and collinear clusters have now been discovered within the chordate phyla in amphioxus and the vertebrates, and more recently within the hemichordates and echinoderms. The archetypal ParaHox cluster of amphioxus places it in a unique position in which to examine the regulatory mechanisms controlling ParaHox gene expression within the last common ancestor of chordates, and perhaps even the wider Deuterostomia. In this thesis, the genomic and regulatory landscape of the amphioxus ParaHox cluster is characterised in detail. New genomic and transcriptomic resources are used to better characterise the B.floridae ParaHox cluster and surrounding genomic region, and conserved non-coding regions and regulatory motifs are identified across the ParaHox cluster of three species of amphioxus. In conjunction with this, the impact of retrotransposition upon the ParaHox cluster is examined and analyses of transposable elements and the AmphiSCP1 retrogene reveal that the ParaHox cluster may be more insulated from outside influence than previously thought. Finally, the detailed analyses of a regulatory element upstream of AmphiGsx reveals conserved mechanisms regulating Gsx CNS expression within the chordates, and TCF/Lef is likely a direct regulator of AmphiGsx within the CNS. The work in this thesis makes use of new genomic and transcriptomic resources available for amphioxus to better characterise the genomic and regulatory landscape of the amphioxus ParaHox cluster, serving as a basis for the improved identification and characterisation of functional regulatory elements and conserved regulatory mechanisms. This work also highlights the potential of Ciona intestinalis as a ‘living test tube' to allow the detailed characterisation of amphioxus ParaHox regulatory elements.

572.8

2A-induced ribosome stalling

Odon, Valèrie M. N.

January 2014

Originally 2A was characterised in foot-and-mouth disease virus. Site directed mutagenesis identified a C-terminus consensus motif [D(V/I)ExNPGP] and it is proposed that 2A interacts with the exit tunnel of the ribosome in a way that a specific peptide bond is skipped between the last glycine of 2A and the proline of 2B, thus providing a discontinuity in translation, resulting in release of discrete proteins from one single ORF. 2A was also identified in other picornaviruses, positive, single and double-stranded RNA insect viruses and mammalian rotaviruses. A motif present at the C-terminus of the 2A oligopeptide [D(V/I)ExNPGP] is very highly, though not completely conserved . The sequence upstream of this motif shows, however, no apparent conservation between 2As of different viruses. In this study, extensive site-directed mutagenesis were performed on several 2A sequences and a series of ‘hybrid' 2As comprising different consensus motifs juxtaposed with different upstream contexts were created as part of a detailed analysis of the mechanism of 2A-mediated ribosome stalling. The results demonstrated that a minimal region of twenty to twenty-three amino acids interacts with the exit tunnel of the ribosome to bring about a pause in processivity, alter the peptidyl transferase centre geometry and restrict the ribosome A site via two distinctive stalling mechanisms. Other molecular analyses tested here will require further optimisations or alternative methods: a visual method to explore the dynamics of re-initiation of translation from proline codon, purification of the translation-regulating factors and structural resolution of 2A sequences. Previously, cellular 2As were identified in non-LTR retrotransposons of trypanosomes. It is reported here as part of two other cellular organisms Saccoglossus kowalevskii (acorn worm) and Branchiostoma floridae (amphioxus). In the acorn worm, the nucleotides sequences corresponding to 2A motifs were part of the untranslated genome. In amphioxus, three 2A elements were identified in hypothetical proteins, and at the N-terminus of twenty non-LTR retrotransposons.

570