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1. Drosophila kikkawai ortholog of the D. melanogaster Muller D element ash1

   https://doi.org/10.17912/micropub.biology.001322  

   Mo, Mia; Sabb, Destiny; LoBello, Larissa; Chambers, Kayla; Kershaw, Kacie; Welles, Cameron; Kurucz, Joshua; Rhyne, Caleb; Nichols, Angel; Stanga, John; et al (November 2024, microPublication biology)

   The Drosophila kikkawai feature with Gene ID 108083276 was determined to be an ortholog of Drosophila melanogaster absent, small, or homeotic discs 1 (ash1). Two isoforms, ash1-PB and ash1-PC, were constructed on the D. kikkawai Muller D element using the GEP annotation protocol. The second coding exon of D. kikkawai ash1 includes an insertion translated into 18 additional amino acids compared to the D. melanogaster protein and is supported by RNA-Seq coverage, the lack of splice junction predictions, and multiple gene predictors. The first intron in both isoforms of D. kikkawai ash1 contains a well conserved non-canonical GC splice site. 

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2. Nebulous without white : annotated long-read genome assembly and CRISPR/Cas9 genome engineering in Drosophila nebulosa

   https://doi.org/10.1093/g3journal/jkac231  

   Sottolano, Christopher J.; Revaitis, Nicole T.; Geneva, Anthony J.; Yakoby, Nir; Arbeitman, ed., M. (September 2022, G3 Genes|Genomes|Genetics)

   Abstract The diversity among Drosophila species presents an opportunity to study the molecular mechanisms underlying the evolution of biological phenomena. A challenge to investigating these species is that, unlike the plethora of molecular and genetics tools available for D. melanogaster research, many other species do not have sequenced genomes; a requirement for employing these tools. Selecting transgenic flies through white (w) complementation has been commonly practiced in numerous Drosophila species. While tolerated, the disruption of w is associated with impaired vision, among other effects in D. melanogaster. The D. nebulosa fly has a unique mating behavior which requires vision, and is thus unable to successfully mate in dark conditions. Here, we hypothesized that the disruption of w will impede mating success. As a first step, using PacBio long-read sequencing, we assembled a high-quality annotated genome of D. nebulosa. Using these data, we employed CRISPR/Cas9 to successfully disrupt the w gene. As expected, D. nebulosa males null for w did not court females, unlike several other mutant strains of Drosophila species whose w gene has been disrupted. In the absence of mating, no females became homozygous null for w. We conclude that gene disruption via CRISPR/Cas9 genome engineering is a successful tool in D. nebulosa, and that the w gene is necessary for mating. Thus, an alternative selectable marker unrelated to vision is desirable. 

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3. An orphan gene is essential for efficient sperm entry into eggs in Drosophila melanogaster

   https://doi.org/10.1093/genetics/iyaf008  

   Guay, Sara_Y; Patel, Prajal_H; Thomalla, Jonathon_M; McDermott, Kerry_L; O’Toole, Jillian_M; Arnold, Sarah_E; Obrycki, Sarah_J; Wolfner, Mariana_F; Findlay, Geoffrey_D; Begun, ed., D. (February 2025, GENETICS)

   Abstract While spermatogenesis has been extensively characterized in the Drosophila melanogaster model system, very little is known about the genes required for fly sperm entry into eggs. We identified a lineage-specific gene, which we named katherine johnson (kj), that is required for efficient fertilization. Males that do not express kj produce and transfer sperm that are stored normally in females, but sperm from these males enter eggs with severely reduced efficiency. Using a tagged transgenic rescue construct, we observed that the KJ protein localizes around the edge of the nucleus at various stages of spermatogenesis but is undetectable in mature sperm. These data suggest that kj exerts an effect on sperm development, the loss of which results in reduced fertilization ability. Interestingly, KJ protein lacks detectable sequence similarity to any other known protein, suggesting that kj could be a lineage-specific orphan gene. While previous bioinformatic analyses indicated that kj was restricted to the melanogaster group of Drosophila, we identified putative orthologs with conserved synteny, male-biased expression, and predicted protein features across the genus, as well as likely instances of gene loss in some lineages. Thus, kj was likely present in the Drosophila common ancestor. It is unclear whether its role in fertility had already evolved at that time or developed later in the lineage leading to D. melanogaster. Our results demonstrate a new aspect of male reproduction that has been shaped by a lineage-specific gene and provide a molecular foothold for further investigating the mechanism of sperm entry into eggs in Drosophila. 

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4. Nested likelihood-ratio testing of the nonsynonymous:synonymous ratio suggests greater adaptation in the piRNA machinery of Drosophila melanogaster compared with Drosophila ananassae and Drosophila willistoni , two species with higher repeat content

   https://doi.org/10.1093/g3journal/jkaf017  

   Blumenstiel, Justin_P; Kingan, Sarah_B; Garrigan, Daniel; Hill, Tom; Vedanayagam, Jeffrey; Kern, ed., A. (February 2025, G3: Genes, Genomes, Genetics)

   Abstract Numerous studies have revealed a signature of strong adaptive evolution in the piwi-interacting RNA (piRNA) machinery of Drosophila melanogaster, but the cause of this pattern is not understood. Several hypotheses have been proposed. One hypothesis is that transposable element (TE) families and the piRNA machinery are co-evolving under an evolutionary arms race, perhaps due to antagonism by TEs against the piRNA machinery. A related, though not co-evolutionary, hypothesis is that recurrent TE invasion drives the piRNA machinery to adapt to novel TE strategies. A third hypothesis is that ongoing fluctuation in TE abundance leads to adaptation in the piRNA machinery that must constantly adjust between sensitivity for detecting new elements and specificity to avoid the cost of off-target gene silencing. Rapid evolution of the piRNA machinery may also be driven independently of TEs, and instead from other functions such as the role of piRNAs in suppressing sex-chromosome meiotic drive. We sought to evaluate the impact of TE abundance on adaptive evolution of the piRNA machinery in D. melanogaster and 2 species with higher repeat content—Drosophila ananassae and Drosophila willistoni. This comparison was achieved by employing a likelihood-based hypothesis testing framework based on the McDonald–Kreitman test. We show that we can reject a faster rate of adaptive evolution in the piRNA machinery of these 2 species. We propose that the high rate of adaptation in D. melanogaster is either driven by a recent influx of TEs that have occurred during range expansion or selection on other functions of the piRNA machinery. 

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5. G.3.2 is a novel allele of the gene connector enhancer of ksr (cnk) in Drosophila melanogaster

   https://doi.org/10.17912/micropub.biology.001290  

   Chammout, Hanadi; Adkins, Delia L; Al-Olimat, Aleece K; Alsaad, Zeinab; Altopp, Beatrice M; Amer, Tuqa; Apampa, Feyi O; Avery, Gwendolyn R; Bazzi, Isaac I; Beck, Emilia D; et al (January 2024, microPublication biology)

   Genetic screens in Drosophila melanogaster have long been used to identify genes found in a variety of developmental, cellular, and behavioral processes. Here we describe the characterization and mapping of a mutation identified in a conditional screen for genetic regulators of cell growth and cell division. Within a Flp/FRT system, mutant G.3.2 results in a reduction of mutant tissue and a rough eye phenotype. We find that G.3.2 maps to the gene cnk, providing further support that cnk is a critical gene in Drosophila eye development. This mutant was characterized, mapped and sequenced by undergraduate students within the Fly-CURE consortium. 

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