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1. The Variation in the Water Level of Lake Baikal and Its Relationship with the Inflow and Outflow

   https://doi.org/10.3390/w16040560  

   Sinyukovich, Valery N; Georgiadi, Aleksandr G; Groisman, Pavel Y; Borodin, Oleg O; Aslamov, Ilya A (February 2024, Water)

   Lake Baikal is the largest freshwater lake in the world, accounting for about 20% of the world’s fresh surface water. The lake’s outflow to the ocean occurs only via the Angara River, which has several hydroelectric power plants (HPPs) along its watercourse. The first such HPP, Irkutsk HPP, was built in 1956 and is located 60 km from the Angara River’s source. After two years, the backwater from this HPP expanded to the lake shores and began raising the Baikal Lake level. Currently, there is a dynamic balance between the new lake level, the lake inflow from its tributaries, and the Angara River discharge through the Irkutsk HPP. However, both the Angara River discharge and the Baikal Lake level were distorted by the HPP construction. Thus, to understand the changes to the lake basin over the past century, we first needed to estimate naturalized lake levels that would be if no HPP was ever built. This was an important task that allowed (a) the actual impact of global changes on the regional hydrological processes to be estimated and (b) better management of the HPP itself to be provided through future changes. With these objectives in mind, we accumulated multi-year data on the observed levels of Lake Baikal, and components of its water budget (discharge of main tributaries and the Angara River, precipitation, and evaporation). Thereafter, we assessed the temporal patterns and degree of coupling of multi-year and intra-annual changes in the lake’s monthly, seasonal, and annual characteristics. The reconstruction of the average monthly levels of Lake Baikal and the Angara River water discharge after the construction of the Irkutsk HPP was based on the relationship of the fluctuations with the components of the Lake water budget before regulation. As a result, 123-year time series of “conditionally natural” levels of Lake Baikal and the Angara River discharge were reconstructed and statistically analyzed. Our results indicated high inertia in the fluctuations in the lake level. Additionally, we found a century-long tendency of increases in the lake level of about 15 cm per 100 years, and we quantified the low-frequency changes in Lake Baikal’s water levels, the discharge of the Angara River, and the main lake tributaries. An assessment of the impact of the Irkutsk HPP on the multi-year and intra-annual changes in the Lake Baikal water level and the Angara River discharge showed that the restrictions on the discharge through the HPP and the legislative limitations of the Lake Baikal level regime have considerably limited the fluctuations in the lake level. These fluctuations can lead to regulation violations and adverse regimes during low-water or high-water periods. 

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2. Homoeologous Recombination: A Novel and Efficient System for Broadening the Genetic Variability in Wheat

   https://doi.org/10.3390/agronomy10081059  

   Koo, Dal-Hoe; Friebe, Bernd; Gill, Bikram S. (August 2020, Agronomy)

   null (Ed.)

   Gene transfer from wild wheat relatives to bread wheat is restricted to homologous recombination. The presence of the Pairing homoeologous 1 (Ph1) gene in the long arm of wheat chromosome 5B allows only homologous chromosomes to pair and recombine, resulting in diploid inheritance of polyploid wheat. Previously, we identified a potent homoeologous pairing promotor gene(s) (Hpp-5Mg); its carrier chromosome 5Mg derived from Aegilops geniculata and its wheat homoeologous chromosome 5D freely recombined in the presence of the Ph1 gene. In this study, we investigated the effect of Hpp-5Mg on homoeologous recombination in the absence of Ph1. In Hpp-5Mg/ph1bph1b plants, we observed a vast genome-wide increase in homoeologous recombination and multiple crossovers (CO), including CO breakpoints in proximal regions of the chromosomes where recombination is known to be suppressed. We tested the efficacy of Hpp-5Mg/ph1bph1b-induced homoeologous recombination by producing new recombinants for the wheat streak mosaic virus resistance gene, Wsm3, present in the wheat-Thinopyrum intermedium Robertsonian translocation (RobT T7BS.7S#3L). A recombination frequency of 6.5% was detected by screening the progenies double monosomic for T7BS.7S#3L and 7B by genomic in situ hybridization. This recombination frequency was about 100-fold higher compared with the recombinant frequency of 0.06% observed by using ph1b-induced homoeologous recombination alone. Our results indicate that chromosome 5Mg promotes homoeologous recombination between wheat and wild wheat relative chromosomes, which helps in the generation of pre-breeding materials thereby accelerating wheat crop improvement. 

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3. Comprehensive spectral libraries for various rabbit eye tissue proteomes

   https://doi.org/10.1038/s41597-022-01241-5  

   Qin, Guoting; Zhang, Pengzhi; Sun, Mingxia; Fu, Wenjiang; Cai, Chengzhi (March 2022, Scientific Data)

   Abstract Rabbits have been widely used for studying ocular physiology and pathology due to their relatively large eye size and similar structures with human eyes. Various rabbit ocular disease models, such as dry eye, age-related macular degeneration, and glaucoma, have been established. Despite the growing application of proteomics in vision research using rabbit ocular models, there is no spectral assay library for rabbit eye proteome publicly available. Here, we generated spectral assay libraries for rabbit eye compartments, including conjunctiva, cornea, iris, retina, sclera, vitreous humor, and tears using fractionated samples and ion mobility separation enabling deep proteome coverage. The rabbit eye spectral assay library includes 9,830 protein groups and 113,593 peptides. We present the data as a freely available community resource for proteomic studies in the vision field. Instrument data and spectral libraries are available via ProteomeXchange with identifier PXD031194. 

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4. A comprehensive spectral assay library to quantify the Halobacterium salinarum NRC-1 proteome by DIA/SWATH-MS

   https://doi.org/10.1038/s41597-023-02590-5  

   Kusebauch, Ulrike; Lorenzetti, Alan P. R.; Campbell, David S.; Pan, Min; Shteynberg, David; Kapil, Charu; Midha, Mukul K.; López García de Lomana, Adrián; Baliga, Nitin S.; Moritz, Robert L. (October 2023, Scientific Data)

   Abstract Data-Independent Acquisition (DIA) is a mass spectrometry-based method to reliably identify and reproducibly quantify large fractions of a target proteome. The peptide-centric data analysis strategy employed in DIA requiresa priorigenerated spectral assay libraries. Such assay libraries allow to extract quantitative data in a targeted approach and have been generated for human, mouse, zebrafish,E. coliand few other organisms. However, a spectral assay library for the extreme halophilic archaeonHalobacterium salinarumNRC-1, a model organism that contributed to several notable discoveries, is not publicly available yet. Here, we report a comprehensive spectral assay library to measure 2,563 of 2,646 annotatedH. salinarumNRC-1 proteins. We demonstrate the utility of this library by measuring global protein abundances over time under standard growth conditions. TheH. salinarumNRC-1 library includes 21,074 distinct peptides representing 97% of the predicted proteome and provides a new, valuable resource to confidently measure and quantify any protein of this archaeon. Data and spectral assay libraries are available via ProteomeXchange (PXD042770, PXD042774) and SWATHAtlas (SAL00312-SAL00319). 

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5. Quantitation and comprehension of osmotic effects on proteome dynamics in euryhaline fish

   Kültz, D. (July 2019, SEB 2019 Abstract book)

   Organismal physiology, morphology, and behavior are based on the function of structural proteins and enzymes. Proteins represent the central regulatory plane in the genome to phenome continuum. The protein complement of cells and tissues (the proteome) is highly dynamic and mirrors environmental and developmental influences on organismal phenotypes. Therefore, dynamic proteomes are excellent bioindicators of environmental exposure. Comprehensive blueprints of environmental exposures are reflected in specific proteome states and capturing those states is achieved by quantitative proteomics. We have developed quantitative proteomics workflows to characterize environmental influences on proteome states and proteome dynamics of euryhaline and euryhthermal fish populations in coastal areas. These workflows utilize tissue- and cell-specific assay libraries for data-independent acquisition (DIA) or Sequentially Windowed Acquisition of all THeoretically possible MSMS spectra (SWATH) mass spectrometry. Qunatitative proteome datasets generated with these workflows are highly accurate and they consistently cover precisely defined sets of proteomes. This consistent coverage renders systematic and long-term network and topological data analysis (TDA) approaches feasible. These workflows and approaches are explained and their application to coastal fish biology is discussed using selected datasets as examples. The data presented illustrate that habitat differences such as salinity and temperature changes are readily captured in state changes of tissue-specific proteomes. The overall topology of proteome states is indicative of particular tissues, species, and environmental contexts and is therefore suitable for deducing functional and phenotypic consequences of environmental changes on coastal organisms. 

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