Your search keyword '"Jasper Braun"' showing total 2 results

1. Russian Doll Genes and Complex Chromosome Rearrangements in Oxytricha trifallax

Author

Jasper Braun, Lukas Nabergall, Rafik Neme, Laura F. Landweber, Masahico Saito, and Nataša Jonoska

Subjects

Ciliates, Genome rearrangement, Nested genes, Scrambled genes, Nanochromosomes, Genetics, QH426-470

Abstract

Ciliates have two different types of nuclei per cell, with one acting as a somatic, transcriptionally active nucleus (macronucleus; abbr. MAC) and another serving as a germline nucleus (micronucleus; abbr. MIC). Furthermore, Oxytricha trifallax undergoes extensive genome rearrangements during sexual conjugation and post-zygotic development of daughter cells. These rearrangements are necessary because the precursor MIC loci are often both fragmented and scrambled, with respect to the corresponding MAC loci. Such genome architectures are remarkably tolerant of encrypted MIC loci, because RNA-guided processes during MAC development reorganize the gene fragments in the correct order to resemble the parental MAC sequence. Here, we describe the germline organization of several nested and highly scrambled genes in Oxytricha trifallax. These include cases with multiple layers of nesting, plus highly interleaved or tangled precursor loci that appear to deviate from previously described patterns. We present mathematical methods to measure the degree of nesting between precursor MIC loci, and revisit a method for a mathematical description of scrambling. After applying these methods to the chromosome rearrangement maps of O. trifallax we describe cases of nested arrangements with up to five layers of embedded genes, as well as the most scrambled loci in O. trifallax.

Published

2018

2. Russian doll genes and complex chromosome rearrangements inOxytricha trifallax

Author

Masahico Saito, Rafik Neme, Laura F. Landweber, Lukas Nabergall, Jasper Braun, and Nataša Jonoska

Subjects

0301 basic medicine, 030106 microbiology, Genomics, Chromosomal rearrangement, Oxytricha, Genome rearrangement, QH426-470, Genome, Germline, 03 medical and health sciences, Scrambled genes, Nested genes, Genetics, Molecular Biology, Gene, Genetics (clinical), 030304 developmental biology, 0303 health sciences, Ciliates, Macronucleus, biology, 030306 microbiology, Chromosome, Gene rearrangement, biology.organism_classification, Nested gene, 030104 developmental biology, Oxytricha trifallax, Nanochromosomes

Abstract

Ciliates have two different types of nuclei per cell, with one acting as a somatic, transcriptionally active nucleus (macronucleus; abbr. MAC) and another serving as a germline nucleus (micronucleus; abbr. MIC). Furthermore,Oxytricha trifallaxundergoes extensive genome rearrangements during sexual conjugation and post-zygotic development of daughter cells. These rearrangements are necessary because the precursor MIC loci are often both fragmented and scrambled, with respect to the corresponding MAC loci. Such genome architectures are remarkably tolerant of encrypted MIC loci, because RNA-guided processes during MAC development reorganize the gene fragments in the correct order to resemble the parental MAC sequence. Here, we describe the germline organization of several nested and highly scrambled genes inOxytricha trifallax. These include cases with multiple layers of nesting, plus highly interleaved or tangled precursor loci that appear to deviate from previously described patterns. We present mathematical methods to measure the degree of nesting between precursor MIC loci, and revisit a method for a mathematical description of scrambling. After applying these methods to the chromosome rearrangement maps ofO. trifallaxwe describe cases of nested arrangements with up to five layers of embedded genes, as well as the most scrambled loci inO. trifallax.

Published

2017