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Volume 227, Issue 3, July 2024
Call for Papers
Genetics of Bacteria: a call for papers
The 2024 GSA Honors and Awards
Dogs and their genes: what ever will they think of next?
Perspectives
Clarifying Mendelian vs non-Mendelian inheritance
Brief Investigation
Molecular Genetics of Development
Gene duplication and evolutionary plasticity of lin-12/Notch gene function in Caenorhabditis
Investigation
Cellular Genetics
Notch signaling without the APH-2/nicastrin subunit of gamma secretase in Caenorhabditis elegans germline stem cells
Gamma secretase executes the final activating step in Notch signal transduction. Its four conserved subunits are thought to be essential. Here the authors discover the first example of Notch signaling without the APH-2/Nicastrin subunit. The surprising dispensability of APH-2/Nicastrin in C. elegans germ cells contrasts with its essential role in the C. elegans embryo. The authors propose a revised model of gamma secretase in which APH-2/Nicastrin acts only to increase gamma secretase activity, and therefore, in some cellular contexts is unnecessary.
Experimental Technologies and Resources
Illuminating the Cryptococcus neoformans species complex: unveiling intracellular structures with fluorescent-protein-based markers
Gene Expression
Sequence reliance of the Drosophila context-dependent transcription factor CLAMP
siRNA that participates in Drosophila dosage compensation is produced by many 1.688X and 359 bp repeats
Genome Integrity and Transmission
Spontaneous and double-strand break repair-associated quasipalindrome and frameshift mutagenesis in budding yeast: role of mismatch repair
The Dmc1 recombinase physically interacts with and promotes the meiotic crossover functions of the Mlh1–Mlh3 endonuclease
The authors identified genetic and biochemical interactions in baker’s yeast between Mlh1-Mlh3, which acts in meiotic crossover resolution, and Dmc1, the recombinase responsible for recombination between homologous chromosomes during meiosis. Partial complementation of Mlh3 crossover functions was observed when MLH3 expression was restricted to roughly the time of crossover resolution, suggesting that Mlh3 function can be provided late in meiotic prophase at some functional cost. A model for how Dmc1 could facilitate Mlh1-Mlh3’s role in crossover resolution is presented.
UV damage induces production of mitochondrial DNA fragments with specific length profiles
UV damage in mitochondrial genomes has been historically difficult to study. One potential solution is excision repair sequencing (XR-seq), where UV damaged molecules are captured and directly sequenced. The authors analysis of the mitochondrial derived reads in numerous publicly available XR-seq datasets provides valuable insights into the fate of photodamage in mitochondrial genomes. They show that in diverse eukaryotes, mitochondrially derived DNA fragments of characteristic length and nucleotide composition are produced following UV exposure, possibly from mtDNA degradation or repair.
Molecular Genetics of Development
Insights into ribosomal DNA dominance and magnification through characterization of isogenic deletion alleles
Neurogenetics & Behavior
TWISP: a transgenic worm for interrogating signal propagation in Caenorhabditis elegans
Knockdown of NeuroD2 leads to seizure-like behavior, brain neuronal hyperactivity and a leaky blood-brain barrier in a Xenopus laevis tadpole model of DEE75
Population and Evolutionary Genetics
Allele frequency dynamics under sex-biased demography and sex-specific inheritance in a pedigreed jay population
Locally adaptive inversions in structured populations
Estimating scale-specific and localized spatial patterns in allele frequency
Deleterious mutation/epimutation–selection balance with and without inbreeding: a population (epi)genetics model
Statistical Genetics and Genomics
How group structure impacts the numbers at risk for coronary artery disease: polygenic risk scores and nongenetic risk factors in the UK Biobank cohort
Both genetic and non-genetic factors influence an individual's risk of coronary artery disease and prediction models that combine these contributors to risk are well studied. In this paper the authors first show that existing models that perform well at the level of the individual are not well suited for predicting disease rates in groups of people based on geographical location. They explore the reasons for this surprising result and introduce a novel model that works well.
