Sex-specific evolution of a Drosophila sensory system via interacting cis- and trans-regulatory changes

The evolution of gene expression via cis-regulatory changes is well established as a major driver of phenotypic evolution. However, relatively little is known about the influence of enhancer architecture and intergenic interactions on regulatory evolution. We address this question by examining chemosensory system evolution in Drosophila. D. prolongata males show a massively increased number of chemosensory bristles compared to females and males of sibling species. This increase is driven by sex-specific transformation of ancestrally mechanosensory organs. Consistent with this phenotype, the Pox neuro transcription factor (Poxn), which specifies chemosensory bristle identity, shows expanded expression in D. prolongata males. Poxn expression is controlled by non-additive interactions among widely dispersed enhancers. Although some D. prolongata Poxn enhancers show increased activity, the additive component of this increase is slight, suggesting most changes in Poxn expression are due to epistatic interactions between Poxn enhancers and trans-regulatory factors. Indeed, the expansion of D. prolongata Poxn enhancer activity is only observed in cells that express doublesex (dsx), the gene that controls sexual differentiation in Drosophila and also shows increased expression in D. prolongata males due to cis-regulatory changes. Although expanded dsx expression may contribute to increased activity of D. prolongata Poxn enhancers, this interaction is not sufficient to explain the full expansion of Poxn expression, suggesting that cis-trans interactions between Poxn, dsx, and additional unknown genes are necessary to produce the derived D. prolongata phenotype. Overall, our results demonstrate the importance of epistatic gene interactions for evolution, particularly when pivotal genes have complex regulatory architecture.

RNA-Seq analysis reveals expression regulatory divergence of W-linked genes between two contrasting chicken breeds

The regulation of gene expression is a complex process involving organism function and phenotypic diversity, and is caused by cis- and trans- regulation. While prior studies identified the regulatory pattern of the autosome rewiring in hybrids, the role of gene regulation in W sex chromosomes is not clear due to their degradation and sex-limit expression. Here, we developed reciprocal crosses of two chicken breeds, White Leghorn and Cornish Game, which exhibited broad differences of gender-related traits, and assessed the expression of the genes on W chromosome to disentangle the contribution of cis- and trans-factors to expression divergence. We found that there was not appear to be an association between female fecundity and W chromosome gene expression, that 44% of expressed genes had divergent expression between breeds in both tissues, with only 17% of them showing greater expression in White Leghorn. We observed that the proportion of trans-acting genes in W chromosome was higher than cis-regulatory divergence. There were most parental divergence expression genes in muscle, also more heterosis compared with other two tissues. A strong dominant impact of Cornish alleles in brain, while obvious crosses-specific regulatory patterns appeared in liver. Taken together, this work describes the regulatory divergence of W-linked genes between two contrasting breeds and indicates sex chromosomes have a unique regulation and expression mechanism.

Cis-clustering of cadherin-23 controls the kinetics of cell-cell adhesion

Cis and trans-interactions in cadherins are the foundations of multicellularity. While the trans-interaction mediate cell-cell adhesion, the cis-interaction is postulated as strengthening to trans by clustering. The well-accepted model in cadherin-adhesion is that the trans precedes cis via a diffusion-trap kinetic model. Here we report that cadherin-23, a non-classical cadherin with an extended extracellular region, undergoes clustering in solution via lateral interactions independent of trans and phase separate as liquid droplets. In cellulo using fluorescence-recovery after the photobleaching, we noticed a significantly slow-diffusion of cadherin-23 at the intercellular junctions, indicating the diffusion of a cluster. The cis-clustering accelerates the cell-cell adhesion and, thus, kinetically controls cell-adhesion via cis precedes trans model. Though the connection of cis-clustering with the rapid adhesion is yet to explore, M2-macrophages that predominantly express cadherin-23 undergo fast attachments to circulatory tumor cells during metastasis.

Expression of lncRNAs in children with pancreaticobiliary maljunction: functional analysis and potential biomarkers

IntroductionPancreaticobiliary maljunction (PBM) leads to higher rates of complications, including cholangitis,pancreatitis, and malignancies. The present study was to investigat the expression profile of long non-coding RNAs (lncRNAs) and their potential role as biomarkers in children with pancreaticobiliary maljunction.Material and methodsThe differential expression of lncRNAs and mRNAs from 15 pediatric patients with pancreaticobiliary maljunction and 15 control subjects were analyzed using a commercial microarray and validated with qRT-PCR. The potential biological functions of differentially expressed genes were explored based on Gene Ontology and Kyoto Encyclopedia of Genes and Genomes pathway enrichment. The ability of potential lncRNA biomarkers to predict pancreaticobiliary maljunction was assessed based on the area under the receiver operating characteristic curve (AUC).ResultsThere were 2915 mRNAs and 173 lncRNAs upregulated, and 2121 mRNAs and 316 lncRNAs downregulated in pancreaticobiliary maljunction cases compared to controls. The enriched Gene Ontology categories associated with differentially expressed mRNAs were extracellular matrix, extracellular region, and kinetochore. The most enriched Kyoto Encyclopedia pathway was protein digestion and absorption, which has been associated with cancer and PI3K-Akt signaling. Analysis of cis- and trans-target genes predicted that a single lncRNA was able to regulate several mRNAs. The qRT-PCR results for NR_110876, NR_132344, XR_946886, and XR_002956345 were consistent with the microarray results, and the difference was statistically significant for NR_132344, XR_946886, and XR_002956345 (p < 0.05). AUC was significant only for XR_946886 (0.837, p < 0.001).ConclusionsOur results implicate lncRNAs in common bile duct pathogenesis in pancreaticobiliary maljunction, and they identify XR_946886 as a potential biomarker for the disease.

They would have transitioned me: third conditional TERF grammar of trans childhood

Some of the most virulent public trans-exclusionary radical feminist (TERF) discourse in the UK follows the grammatical form of the third conditional: if I had grown up now, I would have been persuaded to transition. This articulation of the hypothetical threat of a transition that did not happen but is imagined, in retrospect, to be not just possible but forcibly enacted plays an important role, both politically and psychically, in a contemporary political landscape that is threatening the livelihoods of trans children. Interrogating this discourse via an analysis of an open letter by J.K. Rowling, and a documentary by Stella O’Malley, this article asks: what might we learn about contemporary transphobia in the UK if we took seriously the grammar of TERF discourse animated by trans childhood? It argues that while the third conditional grammar of TERF discourse could articulate a politics of solidarity between cis and trans positionalities and politics, its potential for a shared political standpoint is routinely interrupted by the defence mechanisms that are oriented by the psychic life of the child. Interrogating these defence mechanisms at the level of the cultural, the article traces out paranoia (as reading practice and psychic state) as well as projection, as two main modes of TERF engagement with trans childhood. The article thus engages with the range of real and fantasmatic impossibilities that haunt the trans child both in the present and the past, and it contributes to the growing body of scholarship on trans childhoods. In doing so, it makes the case that public discourse on trans children should desist from hypothetical third conditional claims, and instead find ways of embracing trans childhoods unconditionally.

Chromosome-Wide Characterization of Intragenic Crossover in Shiitake Mushroom, Lentinula edodes

Meiotic crossover plays a critical role in generating genetic variations and is a central component of breeding. However, our understanding of crossover in mushroom-forming fungi is limited. Here, in Lentinula edodes, we characterized the chromosome-wide intragenic crossovers, by utilizing the single-nucleotide polymorphisms (SNPs) datasets of an F1 haploid progeny. A total of 884 intragenic crossovers were identified in 110 single-spore isolates, the majority of which were closer to transcript start sites. About 71.5% of the intragenic crossovers were clustered into 65 crossover hotspots. A 10 bp motif (GCTCTCGAAA) was significantly enriched in the hotspot regions. Crossover frequencies around mating-type A (MAT-A) loci were enhanced and formed a hotspot in L. edodes. Genome-wide quantitative trait loci (QTLs) mapping identified sixteen crossover-QTLs, contributing 8.5–29.1% of variations. Most of the detected crossover-QTLs were co-located with crossover hotspots. Both cis- and trans-QTLs contributed to the nonuniformity of crossover along chromosomes. On chr2, we identified a QTL hotspot that regulated local, global crossover variation and crossover hotspot in L. edodes. These findings and observations provide a comprehensive view of the crossover landscape in L. edodes, and advance our understandings of conservation and diversity of meiotic recombination in mushroom-forming fungi.

Structure-Activity Relationship and Bioactivity Studies of Neurotrophic trans-Banglene

Neurotrophic small molecule natural products are functional analogs of signaling proteins called neurotrophins, which cause a pro-growth, pro-survival, or pro-differentiation response in neuronal cells. While these phenotypic responses are desirable to combat neurodegenerative disease progression, the pharmacokinetic properties of neurotrophins present challenges to their administration. Therefore, neurotrophic small molecules such as the cis- and trans-banglenes offer attractive alternatives. We describe the synthesis and testing of banglene derivatives and establish a structure-activity response for the banglene family. We demonstrate that (–) trans-banglene is the primarily active enantiomer, and that select modifications on the cyclohexene ring of trans-banglene do not significantly impair its bioactivity. Finally, we demonstrate that (–) trans-banglene potentiation of NGF induced neuritogenesis is unaffected by the presence of these Erk1/2, Akt and Pkc inhibitors. Our structure-activity results also suggest that (–) trans-banglene neurotrophic activity and its potentiation of NGF activity might be distinct unassociated processes.

Structure-Activity-Relationship and Bioactivity of Neurotrophic trans-Banglene

Neurotrophic small molecule natural products are functional analogs of signaling proteins called neurotrophins, which cause a pro-growth, pro-survival, or pro-differentiation response in neuronal cells. While these phenotypic responses are desirable to combat neurodegenerative disease progression, the pharmacokinetic properties of neurotrophins present challenges to their administration. Therefore, neurotrophic small molecules such as the cis- and trans-banglenes offer attractive alternatives. We describe the synthesis and testing of banglene derivatives and establish a structure-activity response for the banglene family. We demonstrate that (–) trans-banglene is the primarily active enantiomer, and that select modifications on the cyclohexene ring of trans-banglene do not significantly impair its bioactivity. Finally, we demonstrate that (–) trans-banglene potentiation of NGF induced neuritogenesis is unaffected by the presence of these Erk1/2, Akt and Pkc inhibitors. Our structure-activity results also suggest that (–) trans-banglene neurotrophic activity and its potentiation of NGF activity might be distinct unassociated processes.

Epithelial-Mesenchymal Transition-Related lncRNAs And SNAI2 Are Potential Biomarkers in Coronary Artery Disease

BackgroundIncreasing evidence suggests that epithelial-mesenchymal transformation (EMT) is critical in the development of inflammatory response, atherosclerosis, and coronary artery disease (CAD). However, landscapes of EMT-related lncRNAs and their target genes have not been fully established in CAD.MethodsLncRNA and mRNA expression profiles obtained from Gene Expression Omnibus (GEO) database were used to identify the differentially expressed mRNAs (DEGs) and lncRNAs (DElncRNAs) between CAD and normal samples. Based on Pearson correlation analysis to identify the EMT-related lncRNAs, the optimal features were identified by receiver operating characteristic (ROC), the least absolute shrinkage and selection operator (LASSO) regression, Support Vector Machine Reverse Feature Elimination (SVM-RFE) algorithms, and logistic regression models were constructed aiming to distinguish CAD from normal samples. The cis and trans-regulatory networks were constructed based on EMT-related lncRNAs. We further estimated the infiltration of the immune cells in CAD patients with the CIBERSORT algorithm, and the correlation between key genes and infiltrating immune cells was analyzed.ResultsIn this study, a logistic regression model with powerful diagnostic capability was constructed based on a total of eight EMT-related lncRNAs identified by two machine learning methods. Then, results of the immune analysis revealed three significant immune cell subsets (CD8 T cells, monocytes, and NK cells) in CAD patients and found EMT-related lncRNAs were closely correlated with these immune cell subsets. By Pearson correlation analysis we got 34 “cis” and “trans” genes. Among them, SNAI2, an EMT-TF gene, was found in the trans-regulatory network of EMT-related lncRNAs. Further, through logistic regression and analysis of immune cell infiltration, we found SNAI2 was a potential biomarker for the diagnosis of CAD but also a close correlation between highly expressed SNAI2 and these three immune cell subsets in CAD patients.ConclusionIn conclusion, these biomarkers have important significance in the diagnosis of CAD patients. Eight EMT-related lncRNAs and SNAI2 can improve our understanding of the molecular mechanism between EMT and CAD.