Your search keyword '"Gary Kinard"' showing total 9 results

1. GRIN‐U.org: Online portal for learning materials on plant genetic resources

Author

Patrick Byrne, Gayle Volk, Deana Namuth‐Covert, Katheryn Chen, Gary Kinard, Laura Gu, Candice Gardner, Anthony Mahama, Forrest Douglass, Gina Cerimele, Stephen Gray, Jill Zarestky, and Geoff Morris

Subjects

Ecology, Insect Science, Soil Science, Animal Science and Zoology, Plant Science, Agronomy and Crop Science, Education

Published

2023

2. US Department of Agriculture and global biogenome initatives: policy challenges and opportunities

Author

Cynthia Parr, Anna K. Childers, Monica F. Poelchau, and Gary Kinard

Subjects

open source software, insect pests, Agriculture, business.industry, Natural resource economics, international engagement, General Medicine, Business, Open source software, crops, repositories, agriculture, policy

Abstract

Biodiversity research is seeing unprecedented global collaboration with initiatives such as the Earth BioGenome Project, an effort to sequence all known eukaryotic life, and Genesys, a global database for sharing crop genetic resources. However, as in other disciplines, public funding and policy for scientific research in agriculture tend to follow national borders even when science and its collaborations do not. In addition, agriculture is similar to biomedicine in having significant private investment in research and development where competition could inhibit sharing. It would seem that significant challenges lie ahead for making progress on ambitious global initiatives at least where agricultural samples, collections, and data are concerned. In this talk we will review several activities at the United States Department of Agriculture that illustrate how policy and infrastructure can overcome difficulties. For example, recent policies for openness of publicly-funded research products and adoption of FAIR data principles even for private or proprietary data hold promise and have elevated the importance of data infrastructure. The US Department of Agriculture's Agricultural Research Service (ARS) launched its Ag100Pest contribution to the Earth BioGenome Project, including the use of the i5K Workspace@NAL platform for its sequenced and annotated genomes. The GRIN Global platform supports not just USDA germplasm data management but a growing network of plant and animal researchers and collections around the world. The Ag Data Commons provides standardized metadata and machine-readable data dictionaries to the publicly accessible products of these and other USDA-funded efforts. It is teaming with the ARS high performance computing system SCINet to explore cost-effective public access to big data storage for agricultural data and models. Finally, many of these efforts extend and contribute back to widely used open source software systems. While challenges remain in coordinating and sustaining these efforts with international stakeholders, engagement with groups like AgBioData, the Research Data Alliance (RDA) Interest Group on Agricultural Data, and the Global Open Data for Agriculture and Nutrition coalition will continue to bear fruit (pun intended). We seek similar engagement with the broader biodiversity data community in order to ensure that policy and infrastructure investments result in maximum mutual benefit.

Published

2019

3. Molecular characterization and detection of two carlaviruses infecting cactus

Author

Gary Kinard, L. Peng, R. Li, Liping Wu, and Samuel Grinstead

Subjects

Cactaceae, Carlavirus, Genome, Viral, Genome, 03 medical and health sciences, Phylogenetics, Virology, Phylogeny, 030304 developmental biology, Sequence (medicine), Genomic organization, Plant Diseases, Genetics, 0303 health sciences, Contig, biology, Base Sequence, 030306 microbiology, Nucleic acid sequence, High-Throughput Nucleotide Sequencing, General Medicine, biology.organism_classification, Cactus, RNA, Viral

Abstract

Two large contigs with sequence similarities to different carlaviruses were identified by high-throughput sequencing in samples from a cactus plant. The complete genomes of the two viruses, tentatively named "cactus carlavirus 1" (CCV-1) and "cactus carlavirus 2" (CCV-2), were determined to be 8,441 and 8,396 nucleotides long, respectively, excluding the poly(A) tail. These viruses have the typical genomic organization of members of the genus Carlavirus. CCV-1 appears to be a cactus isolate of the carlavirus HSO-2016a, with 90.1% nucleotide sequence identity between the two virus genomes, whereas CCV-2 may be classified as a member of a new species. The sequences of CCV-2 and other carlaviruses are 48.9-60.0% identical at the whole-genome level.

Published

2019

4. Development of a multiplex TaqMan real-time RT-PCR assay for simultaneous detection of Asian prunus viruses, plum bark necrosis stem pitting associated virus, and peach latent mosaic viroid

Author

Liming Lin, Gary Kinard, Raymond Mock, Margarita Bateman, and Ruhui Li

Subjects

biology, Positive control, Plum bark necrosis stem pitting-associated virus, Plant Science, Horticulture, biology.organism_classification, Virology, Prunus, Real-time polymerase chain reaction, TaqMan, Multiplex, Orchard, Peach latent mosaic viroid, Agronomy and Crop Science

Abstract

Asian prunus viruses (APV 1, APV 2 and APV 3), Plum bark necrosis stem pitting associated virus (PBNSPaV) and Peach latent mosaic viroid (PLMVd) are pathogens that infect Prunus species. A single-tube multiplex, TaqMan real-time RT-PCR assay was developed for the simultaneous detection and identification of these pathogens. The protocol includes amplification and detection of a fluorogenic cytochrome oxidase gene (COX) as an internal control. The results of the multiplex TaqMan RT-PCR assay correlated with those from conventional RT-PCR, with a 10-fold increase in sensitivity in the multiplex real-time format. The efficiency and accuracy of the assay was evaluated by testing stone fruit trees from positive control collections and several orchard locations. Several mixed infections of target pathogens were detected in peach orchard samples. This assay is simple, rapid and cost-effective and can be used by quarantine and certification programs where numerous stone fruit trees need to be tested for these pathogens.

Published

2013

5. One-step multiplex RT-PCR for simultaneous detection of four pome tree viroids

Author

Gary Kinard, Ruhui Li, Liming Lin, and Ray Mock

Subjects

Germplasm, PEAR, viruses, Plant Science, Horticulture, Biology, Amplicon, Virology, 18S ribosomal RNA, Real-time polymerase chain reaction, Pome, Agarose gel electrophoresis, Multiplex, Agronomy and Crop Science

Abstract

Apple scar skin viroid (ASSVd), Apple dimple fruit viroid (ADFVd), Apple fruit crinkle viroid (AFCVd), and Pear blister canker viroid (PBCVd) infect pome fruit trees. These viroids are important quarantine pathogens for the international movement of pome germplasm. A single-step multiplex reverse transcription polymerase chain reaction assay (mRT-PCR) was developed for the simultaneous detection of these viroids. Four pairs of primers specific for each of the four viroids were used to amplify PCR products of different sizes that can be resolved by agarose gel electrophoresis. Amplification of a plant 18S rRNA was included in the assay as an internal control. Amplicons of 371 bp (AFCVd), 270 bp (ADFVd), 186 bp (ASSVd), 120 bp (PBCVd), and 844 bp (18S rRNA) were obtained in both uniplex and mRT-PCR assays. The identities of the amplification products were confirmed by sequencing. The specificities and limits of detection for all four viroids by uniplex and mRT-PCR assays were comparable. The assay was further validated using samples from pome trees inoculated with all four viroids, as well as field samples from commercial orchards in Colorado. All four viroids were detected from inoculated pear trees and up to three viroids were detected from inoculated apple trees. This is a simple, rapid and cost-effective technique to detect these four viroids in fruit trees. The procedure is especially applicable to certification and quarantine programs, where numerous samples must be tested for all four viroids.

Published

2012

6. Development of a polyprobe to detect six viroids of pome and stone fruit trees

Author

Gary Kinard, Ruhui Li, Ray Mock, and Liming Lin

Subjects

PEAR, biology, Viroid, viruses, Nucleic Acid Hybridization, Dot blot, biology.organism_classification, United States, Viroids, Trees, Pyrus, Pome, Malus, Virology, Botany, Nucleic acid, Prunus, Rosaceae, Plant Diseases, Mixed infection

Abstract

A simple and sensitive dot blot hybridization assay using a digoxigenin-labeled cRNA polyprobe was developed for the simultaneous detection of six viroids that infect pome and stone fruit trees. The polyprobe was constructed by cloning sequentially partial sequences of each viroid into a single vector, with run-off transcription driven by the T7 promoter. All six viroids were detectable within a dilution range of 5−3 to 5−4 in total nucleic acid extracts from infected trees. Individual trees were co-inoculated to create mixed infections and all four pome fruit viroids and both stone fruit viroids could be detected in pear and peach trees, respectively, using the polyprobe. The results of the assays using the polyprobe were comparable to those using single probes. The methods were validated by testing geographically diverse isolates of viroids, as well as field samples from several collections in the US. The assay offers a rapid, reliable and cost-effective approach to the simultaneous detection of six fruit trees viroids and has the potential for routine use in quarantine, certification, and plant genebank programs where many samples are tested and distributed worldwide.

Published

2011

7. A reliable and inexpensive method of nucleic acid extraction for the PCR-based detection of diverse plant pathogens

Author

Ruhui Li, Ray Mock, Q. Huang, John Hartung, Gary Kinard, and J. A. Abad

Subjects

DNA, Bacterial, Extraction (chemistry), food and beverages, RNA, Plants, Biology, Polymerase Chain Reaction, Viroids, law.invention, chemistry.chemical_compound, chemistry, Biochemistry, law, Nucleic Acids, Virology, Plant virus, DNA, Viral, Nucleic acid, RNA, Viral, Homogenizer, Sample preparation, DNA, Polymerase chain reaction, Plant Diseases

Abstract

A reliable extraction method is described for the preparation of total nucleic acids from at least ten plant genera for subsequent detection of plant pathogens by PCR-based techniques. The method combined a modified CTAB (cetyltrimethylammonium bromide) extraction protocol with a semi-automatic homogenizer (FastPrep) instrument) for rapid sample processing and low potential of cross contamination. The method was applied to sample preparation for PCR-based detection of 28 different RNA and DNA viruses, six viroids, two phytoplasmas and two bacterial pathogens from a range of infected host plants including sweet potato, small fruits and fruit trees. The procedure is cost-effective and the qualities of the nucleic acid preparations are comparable to those prepared by commonly used commercial kits. The efficiency of the procedure permits processing of numerous samples and the use of a single nucleic acid preparation for testing both RNA and DNA genomes by PCR, making this an appealing method for testing multiple pathogens in certification and quarantine programs.

Published

2008

8. Complete genome sequence of two isolates of pokeweed mosaic virus and its relationship to other members of the genus Potyvirus

Author

Gary Kinard, Mingqiang Wang, Donglin Xu, and Ruhui Li

Subjects

Genetics, Whole genome sequencing, Phylogenetic tree, Base Sequence, Molecular Sequence Data, Potyvirus, General Medicine, Pokeweed mosaic virus, Genome, Viral, Sequence Analysis, DNA, Biology, biology.organism_classification, Virology, Virus, Plant Leaves, Genus, RNA, Viral, Phytolacca americana, Phylogeny, Genomic organization, Sequence (medicine), Plant Diseases

Abstract

The complete genomic sequences of two isolates of pokeweed mosaic virus (PkMV) were determined to be 9512 nucleotides long, excluding the poly(A) tail. Their genomic organization is typical of potyviruses and contains conserved motifs found in members of the genus Potyvirus. Pairwise comparisons showed that PkMV and other members of the genus Potyvirus share 51.0-57.5 % sequence identity at the genome sequence level and 39.8-53.0 % at the polyprotein sequence level. Phylogenetic analysis indicated that PkMV is most closely related to several viruses in the PVY group of the genus Potyvirus. The genomic information obtained for PkMV suggests that this virus is a distinct potyvirus.

Published

2012

9. Molecular analysis of the complete genomic sequences of four isolates of Gooseberry vein banding associated virus

Author

Gary Kinard, Donglin Xu, Ruhui Li, and Ray Mock

Subjects

Sequence analysis, Molecular Sequence Data, Ribes, Genome, Viral, Biology, Virus, Open Reading Frames, Intergenic region, Virology, Gene Order, Genetics, Cluster Analysis, ORFS, Badnavirus, Molecular Biology, Peptide sequence, Phylogeny, Plant Diseases, Genetic Variation, General Medicine, Sequence Analysis, DNA, biology.organism_classification, Open reading frame, DNA, Viral

Abstract

The presence of Gooseberry vein banding associated virus (GVBaV), a badnavirus in the family Caulimoviridae, is strongly correlated with gooseberry vein banding disease in Ribes spp. In this study, full-length genomic sequences of four GVBaV isolates from different hosts and geographic regions were determined to be 7649-7663 nucleotides. These isolates share identities of 96.4-97.3% for the complete genomic sequence, indicating low genetic diversity among them. The GVBaV genome contains three open reading frames (ORFs) on the plus strand that potentially encode proteins of 26, 16, and 216 kDa. The size and organization of GVBaV ORFs 1-3 are similar to those of most other badnaviruses. The putative amino acid sequence of GVBaV ORF 3 contained motifs that are conserved among badnavirus proteins including aspartic protease, reverse transcriptase, and ribonuclease H. The highly conserved putative plant tRNA(met)-binding site is also present in the 935-bp intergenic region of GVBaV. The identities of the genomic sequences of GVBaV and other badnaviruses range from 49.1% (Sugarcane bacilliform Mor virus) to 51.7% (Pelargonium vein banding virus, PVBV). Phylogenetic analysis using the amino acid sequence of the ORF 3 putative protein shows that GVBaV groups most closely to Dioscorea bacilliform virus, PVBV, and Taro bacilliform virus. These results confirm that GVBaV is a pararetrovirus of the genus Badnavirus in the family Caulimoviridae.

Published

2011