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1. Proline‐Selective Electrochemiluminescence Detecting a Single Amino Acid Variation Between A1 and A2 β‐Casein Containing Milks

   https://doi.org/10.1002/advs.202411956  

   Kim, Eunkyoung; Chen, Chen‐Yu; Chu, Monica_J; Hamstra, Mya_F; Bentley, William_E; Payne, Gregory_F (December 2024, Advanced Science)

   Abstract The proline amino acid and prolyl residues of peptides/proteins confer unique biological and biochemical properties that motivates the development of proline‐selective analysis. The study focuses on one specific class of problem, the detection of single amino acid variants involving proline, and reports a Pro‐selective electrochemiluminescence (ECL) method. To develop this method, the A1‐/A2‐ variants of milk's β‐casein protein are investigated because it is a well‐established example and abundant samples are readily available. Specifically, β‐casein has 209 amino acids with 34 (or 35) proline residues: the A1‐variant has a Pro‐to‐His substitution at position 67 (relative to the A2 variant). The study shows that proline's strong luminescence allows the generic discrimination of: Pro from other amino acids; an A2‐oligopeptide from an A1‐oligopeptide; the A2‐β‐casein variant from the A1‐variant; and commercially‐available A2 milks from A1‐containing regular milks. The evidence indicates that luminescence depends on proline content and accessibility, as well as signal quenching. Compared to conventional immunoassays, the ECL method is simple, rapid, and inexpensive. Further, the ECL‐method is Pro‐selective (vs molecularly‐selective like typical immunoassays) which should make it broadly useful for studying the role of proline in biology and especially useful for tracking the digestion of proline‐rich proteins in the diet. 

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2. UCYN-A/haptophyte symbioses dominate N2 fixation in the Southern California Current System

   https://doi.org/10.1038/s43705-021-00039-7  

   Turk-Kubo, Kendra A.; Mills, Matthew M.; Arrigo, Kevin R.; van Dijken, Gert; Henke, Britt A.; Stewart, Brittany; Wilson, Samuel T.; Zehr, Jonathan P. (August 2021, ISME Communications)

   Abstract The availability of fixed nitrogen (N) is an important factor limiting biological productivity in the oceans. In coastal waters, high dissolved inorganic N concentrations were historically thought to inhibit dinitrogen (N2) fixation, however, recent N2 fixation measurements and the presence of the N2-fixing UCYN-A/haptophyte symbiosis in nearshore waters challenge this paradigm. We characterized the contribution of UCYN-A symbioses to nearshore N2 fixation in the Southern California Current System (SCCS) by measuring bulk community and single-cell N2 fixation rates, as well as diazotroph community composition and abundance. UCYN-A1 and UCYN-A2 symbioses dominated diazotroph communities throughout the region during upwelling and oceanic seasons. Bulk N2 fixation was detected in most surface samples, with rates up to 23.0 ± 3.8 nmol N l−1 d−1, and was often detected at the deep chlorophyll maximum in the presence of nitrate (>1 µM). UCYN-A2 symbiosis N2 fixation rates were higher (151.1 ± 112.7 fmol N cell−1 d−1) than the UCYN-A1 symbiosis (6.6 ± 8.8 fmol N cell−1 d−1). N2 fixation by the UCYN-A1 symbiosis accounted for a majority of the measured bulk rates at two offshore stations, while the UCYN-A2 symbiosis was an important contributor in three nearshore stations. This report of active UCYN-A symbioses and broad mesoscale distribution patterns establishes UCYN-A symbioses as the dominant diazotrophs in the SCCS, where heterocyst-forming and unicellular cyanobacteria are less prevalent, and provides evidence that the two dominant UCYN-A sublineages are separate ecotypes. 

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3. Balancing competing effects of tissue growth and cytoskeletal regulation during Drosophila wing disc development

   https://doi.org/10.1038/s41467-024-46698-7  

   Kumar, Nilay; Rangel Ambriz, Jennifer; Tsai, Kevin; Mim, Mayesha Sahir; Flores-Flores, Marycruz; Chen, Weitao; Zartman, Jeremiah J.; Alber, Mark (March 2024, Nature Communications)

   Abstract How a developing organ robustly coordinates the cellular mechanics and growth to reach a final size and shape remains poorly understood. Through iterations between experiments and model simulations that include a mechanistic description of interkinetic nuclear migration, we show that the local curvature, height, and nuclear positioning of cells in theDrosophilawing imaginal disc are defined by the concurrent patterning of actomyosin contractility, cell-ECM adhesion, ECM stiffness, and interfacial membrane tension. We show that increasing cell proliferation via different growth-promoting pathways results in two distinct phenotypes. Triggering proliferation through insulin signaling increases basal curvature, but an increase in growth through Dpp signaling and Myc causes tissue flattening. These distinct phenotypic outcomes arise from differences in how each growth pathway regulates the cellular cytoskeleton, including contractility and cell-ECM adhesion. The coupled regulation of proliferation and cytoskeletal regulators is a general strategy to meet the multiple context-dependent criteria defining tissue morphogenesis. 

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4. An Fgf–Shh positive feedback loop drives growth in developing unpaired fins

   https://doi.org/10.1073/pnas.2120150119  

   Hawkins, M. Brent; Jandzik, David; Tulenko, Frank J.; Cass, Amanda N.; Nakamura, Tetsuya; Shubin, Neil H.; Davis, Marcus C.; Stock, David W. (March 2022, Proceedings of the National Academy of Sciences)

   The origin and diversification of appendage types is a central question in vertebrate evolution. Understanding the genetic mechanisms that underlie fin and limb development can reveal relationships between different appendages. Here we demonstrate, using chemical genetics, a mutually agonistic interaction between Fgf and Shh genes in the developing dorsal fin of the channel catfish, Ictalurus punctatus . We also find that Fgf8 and Shh orthologs are expressed in the apical ectodermal ridge and zone of polarizing activity, respectively, in the median fins of representatives from other major vertebrate lineages. These findings demonstrate the importance of this feedback loop in median fins and offer developmental evidence for a median fin-first scenario for vertebrate paired appendage origins. 

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5. Light environment and seasonal variation in the visual system of the red shiner ( Cyprinella lutrensis )

   https://doi.org/10.1242/jeb.249878  

   Foster, Tarah_N; Williamson, Alyssa_G; Foster, Bradley_R; Toomey, Matthew_B (February 2025, Journal of Experimental Biology)

   The light environment underwater can vary dramatically over space and time, challenging the visual systems of aquatic organisms. To meet these challenges, many species shift their spectral sensitivities through changes in visual pigment chromophore composition and opsin expression. The red shiner (Cyprinella lutrensis) is a North American cyprinid minnow species that inhabits waters ranging widely in turbidity and temperature. We hypothesized that the visual system of the red shiner is plastic with chromophore composition and opsin expression varying in response to the environment. To test this hypothesis, we collected red shiners throughout the year from three Oklahoma creeks that vary in turbidity. We characterized the light environment by spectroradiometry, measured chromophore composition of the eyes with high performance liquid chromatography, characterized the mechanisms of chromophore metabolism, and examined ocular gene expression by RNA sequencing and de novo transcriptome assembly. We observed significantly higher proportions of the long-wavelength shifted A2 chromophore in the eyes of fish from the turbid site and in samples collected in winter, suggesting that there may be a temperature-dependent trade-off between chromophore-based spectral tuning and chromophore-related noise. Opsin expression varied between turbid and clear creeks, but did not align with light environment as expected, and the magnitude of these differences was limited compared to the differences in chromophore composition. We confirmed that red shiner CYP27C1 catalyzes the conversion of A1 to A2, but the ocular expression of CYP27C1 was not well correlated with A2 levels in the eye, suggesting conversion may be occurring outside of the eye. 

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