,A total of 30 isolates of Colletotrichum sublineola, causal agent of sorghum anthracnose were collected from Georgia, North Carolina, Puerto Rico, and Texas. Data for their virulence patterns on 18 sorghum differentials, RTx2536, SC748-5, Martin (BTx398), TAM428, BTx430, Brandes, SC112-14, Theis, BTx378, SC326-6, SC283, BTx623, SC328C, SC414-12E, PI570841, PI570726, PI569979, and IS18760 were collected from greenhouse trials in College Station, Texas by Louis K. Prom, Ezekiel J. S. Ahn, Ramasamy Perumal, Hugo E. Cuevas, William L. Rooney, Thomas S. Isakeit, and Clint W. Magill between 2014 and 2018. As described by Prom et al. 2012 and 2024, plants were assessed for anthracnose infection twice, 30 days post-inoculation and a week later using disease rating scale 1-5, where 1 = no symptoms or chlorotic flecks on leaves; 2 = hypersensitive reaction (reddening or red spots) on inoculated leaves but no acervuli formation; 3 = lesions on inoculated and bottom leaves with acervuli in the center; 4 = necrotic lesions with acervuli observed on inoculated and bottom leaves with infection spreading to middle leaves, and not yet on the flag leaves; and 5 = most leaves dead due to infection with infection on the flag leaf containing abundant acervuli. The symptom types were then categorized into two reaction classes, resistant = rating 1 or 2; and susceptible = rating 3, 4, or 5. As noted in the dataset, R = resistant response and S = susceptible response.,,

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,Data collected from Phenotypic Microarray (PM) plates PM01 and PM02, using an Omnilog system for the characterization of four species of Levilactobacillus brevis autochthonous to commercial cucumber fermentations and two ATCC reference strains, ATCC14869 and ATCC367. Each PM plate was duplicated for each isolate and the cells were prepared as suggested by the manufacturer. Omnilog data is the result of a screening and phenotypes should be confirmed using conditions that mimic the habitat of interest. This dataset was generated for scientific research purpose only. The Levilactobacillus brevis isolates included in this dataset have publicly available genome sequences described in the Microbiology Resource Announcement peer reviewed journal.,Resources in this dataset:,

,Included in this dataset are SNP and fasta data for the Pea Single Plant Plus Collection (PSPPC) and the PSPPC augmented with 25 P. fulvum accessions.,These 6 datasets can be roughly divided into two groups. Group 1 consists of three datasets labeled PSPPC which refer to SNP data pertaining to the USDA Pea Single Plant Plus Collection. Group 2 consists of three datasets labeled PSPPC + P. fulvum which refer to SNP data pertaining to the USDA PSPPC with 25 accessions of Pisum fulvum added. SNPs for each of these groups were called independently; therefore SNP names that are shared between the PSPPC and PSPPC + P. fulvum groups should NOT be assumed to refer to the same locus.,For analysis, SNP data is available in two widely used formats: hapmap and vcf. These formats can be successfully loaded into TASSEL v. 5.2.25 (http://www.maizegenetics.net/tassel). Explanations of fields (columns) in the VCF files are contained within commented (##) rows at the top of the file.,Descriptions of the first 11 columns in the hapmap file are as follows:,The fasta sequences containing the SNPs are also available for such downstream applications as development of primers for platform-specific markers.,For more information about this dataset, contact Clarice Coyne at Clarice.Coyne@usda.gov or coynec@wsu.edu.,,

,This data set contains images of potato tubers from clones in the A08241 F1 breeding population grown in Aberdeen, Idaho during the 2019 field season. Each clone was grown as 8-hill plots and replicated twice. Five tubers per sample were imaged. Each face of the tuber was imaged on two different backgrounds. The five tubers were also halved lengthwise and one of side was imaged using a flatbed scanner.,Resources in this dataset:,,

,The data in this collection comprise gene annotations for Apios americana and Apios priceana. Annotations were carried out using the BRAKER3 pipeline (Gabriel et al., 2024). Apios americana produces starchy, high-protein tubers that were used by indigenous Native Americans. Apios americana is found throughout eastern and central North America, from Louisiana in the south to Quebec in the north. Apios priceana is a rare legume species, found scattered locations in the North American Southeast (Alabama, Mississippi, Kentucky, and Tennessee). The plant is federally listed as a threatened species. It has a vining habit and produces an edible, thickened storage root.,

,This dataset was generated from soybean (Glycine max) field trials conducted at the West Tennessee Research and Education Center in Jackson, TN and at the Research and Education Center at Milan in Milan, TN as well as from molecular marker screening conducted at the West Tennessee Research and Education Center in Jackson, TN.,Table 3 includes measured data for height, yield, and seed size, and rating data for lodging and seed quality for JTN-5110, 5601T, and select other released germplasm lines and cultivars tested in replicated breeder yield trials in Jackson and Milan, TN from 2010-2016, excluding 2014. This data may be useful in measuring yield gain in future releases of soybean germplasm or cultivars with broad resistance to soybean cyst nematode (SCN; Heterodera glycines). This data should not be used to measure yield gain for elite high-yielding cultivars that do not have broad cyst nematode resistance.,Table 5 includes rating data for JTN-5110 and soybeans with established SCN resistance from simple sequence repeat (SSR) markers: Satt309 and Sat_168, associated with rhg1 on chromosome 18; Sat_162, associated with Rhg4 on chromosome 8; and Satt574, associated with cqSCN-005 on chromosome 17. This data may be useful in understanding the role of these molecular regions in SCN resistance for JTN-5110 and parent line Anand. This data should not be used to draw broad conclusions about cyst nematode resistance, in general.,Table 7 includes rating data for JTN-5110 and check cultivars from frogeye leafspot (caused by Cercospora sojina) field disease screenings conducted in Milan, TN from 2010-2012. This data may be useful in measuring changes in frogeye leafspot incidence and severity in West Tennessee. This data should not be used to draw broad conclusions or represent different geographic areas.,,

These data were compiled to investigate the evolutionary history of Graham's beardtongue (Penstemon grahamii). Objective(s) of our study were to determine the evolutionary history of P. grahamii, including ancestral population sizes, the history of population divergences, and historical connectivity. In addition, we characterized population structure, genetic diversity summary statistics, and landscape factors influencing differentiation. These data represent anonymous loci sequenced from throughout the P. grahamii genome (specifically, .vcf and .structure files). Data in these files were manipulated to represent site frequency spectra between population pairs (.data files). These data were collected in 2019 from across the P. grahamii distribution, which is located in northeastern Utah and western Colorado. Specifically, plants are located at lower elevations on the northern slope of the Book Cliffs, which forms the southern side of the Uinta Basin. These data were collected by employees of the U.S. Geological Survey. Known occurrences of P. grahamii were visited and leaf samples from individual plants were collected from across the species’ distribution. These data can be used to further investigate the genetic differentiation, genetic diversity, and evolutionary history of P. grahamii.

These data were compiled to investigate the evolutionary history of Graham's beardtongue (Penstemon grahamii). Objective(s) of our study were to determine the evolutionary history of P. grahamii, including ancestral population sizes, the history of population divergences, and historical connectivity. In addition, we characterized population structure, genetic diversity summary statistics, and landscape factors influencing differentiation. These data represent anonymous loci sequenced from throughout the P. grahamii genome (specifically, .vcf and .structure files). Data in these files were manipulated to represent site frequency spectra between population pairs (.data files). These data were collected in 2019 from across the P. grahamii distribution, which is located in northeastern Utah and western Colorado. Specifically, plants are located at lower elevations on the northern slope of the Book Cliffs, which forms the southern side of the Uinta Basin. These data were collected by employees of the U.S. Geological Survey. Known occurrences of P. grahamii were visited and leaf samples from individual plants were collected from across the species’ distribution. These data can be used to further investigate the genetic differentiation, genetic diversity, and evolutionary history of P. grahamii.