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2. Extensive Genetic Diversity is Present within North American Switchgrass Germplasm

Author

Joseph Evans, Millicent D. Sanciangco, Kin H. Lau, Emily Crisovan, Kerrie Barry, Chris Daum, Hope Hundley, Jerry Jenkins, Megan Kennedy, Govindarajan Kunde-Ramamoorthy, Brieanne Vaillancourt, Ananta Acharya, Jeremy Schmutz, Malay Saha, Shawn M. Kaeppler, E. Charles Brummer, Michael D. Casler, and C. Robin Buell

Subjects
Plant culture, SB1-1110, Genetics, QH426-470
Abstract

Switchgrass ( is a perennial native North American grass present in two ecotypes: upland, found primarily in the northern range of switchgrass habitats, and lowland, found largely in the southern reaches of switchgrass habitats. Previous studies focused on a diversity panel of primarily northern switchgrass, so to expand our knowledge of genetic diversity in a broader set of North American switchgrass, exome capture sequence data were generated for 632 additional, primarily lowland individuals. In total, over 37 million single nucleotide polymorphisms (SNPs) were identified and a set of 1.9 million high-confidence SNPs were obtained from 1169 individuals from 140 populations (67 upland, 65 lowland, 8 admixed) were used in downstream analyses of genetic diversity and population structure. Seven separate population groups were identified with moderate genetic differentiation [mean fixation index (Fst) estimate of 0.06] between the lowland and the upland populations. Ecotype-specific and population-specific SNPs were identified for use in germplasm evaluations. Relative to rice ( L.), maize ( L.), soybean [ (L.) Merr.], and Gaertn., analyses of nucleotide diversity revealed a high degree of genetic diversity (0.0135) across all individuals, consistent with the outcrossing mode of reproduction and the polyploidy of switchgrass. This study supports the hypothesis that repeated glaciation events, ploidy barriers, and restricted gene flow caused by flowering time differences have resulted in distinct gene pools across ecotypes and geographic regions. These data provide a resource to associate alleles with traits of interest for forage, restoration, and biofuel feedstock efforts in switchgrass.

Published
2018
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3. Extensive Genetic Diversity is Present within North American Switchgrass Germplasm

Author

Evans, Joseph, Sanciangco, Millicent D, Lau, Kin H, Crisovan, Emily, Barry, Kerrie, Daum, Chris, Hundley, Hope, Jenkins, Jerry, Kennedy, Megan, Kunde‐Ramamoorthy, Govindarajan, Vaillancourt, Brieanne, Acharya, Ananta, Schmutz, Jeremy, Saha, Malay, Kaeppler, Shawn M, Brummer, E Charles, Casler, Michael D, and Buell, C Robin

Subjects
Biological Sciences, Ecology, Genetics, Human Genome, Ecotype, Exome, Gene Flow, Gene Pool, Genetic Variation, Genetics, Population, Panicum, Ploidies, Polymorphism, Single Nucleotide, United States, Plant Biology, Crop and Pasture Production, Crop and pasture production, Plant biology
Abstract

Switchgrass ( is a perennial native North American grass present in two ecotypes: upland, found primarily in the northern range of switchgrass habitats, and lowland, found largely in the southern reaches of switchgrass habitats. Previous studies focused on a diversity panel of primarily northern switchgrass, so to expand our knowledge of genetic diversity in a broader set of North American switchgrass, exome capture sequence data were generated for 632 additional, primarily lowland individuals. In total, over 37 million single nucleotide polymorphisms (SNPs) were identified and a set of 1.9 million high-confidence SNPs were obtained from 1169 individuals from 140 populations (67 upland, 65 lowland, 8 admixed) were used in downstream analyses of genetic diversity and population structure. Seven separate population groups were identified with moderate genetic differentiation [mean fixation index (Fst) estimate of 0.06] between the lowland and the upland populations. Ecotype-specific and population-specific SNPs were identified for use in germplasm evaluations. Relative to rice ( L.), maize ( L.), soybean [ (L.) Merr.], and Gaertn., analyses of nucleotide diversity revealed a high degree of genetic diversity (0.0135) across all individuals, consistent with the outcrossing mode of reproduction and the polyploidy of switchgrass. This study supports the hypothesis that repeated glaciation events, ploidy barriers, and restricted gene flow caused by flowering time differences have resulted in distinct gene pools across ecotypes and geographic regions. These data provide a resource to associate alleles with traits of interest for forage, restoration, and biofuel feedstock efforts in switchgrass.

Published
2018

4. Continuous transcriptome analysis reveals novel patterns of early gene expression in Drosophila embryos

Author

J. Eduardo Pérez-Mojica, Lennart Enders, Joseph Walsh, Kin H. Lau, and Adelheid Lempradl

Subjects
Genetics, Biochemistry, Genetics and Molecular Biology (miscellaneous)
Abstract

Early organismal development consists of transformative events that lay the foundation for body formation and long-term phenotype. Despite this understanding, the rapid progression of events and the limited material available are major barriers to studying the earliest stages. The size and accessibility of Drosophila embryos overcome some of these limitations, and several studies characterizing early transcriptional events have been reported. Unfortunately, manual embryo staging, and elaborate protocols make the techniques employed in these studies prone to human and technical errors and incompatible with routine laboratory use. Herein, we present a straight-forward and operationally simple methodology for studying the early transcription (≤3 hours) in Drosophila. This method relies on single-embryo RNA-sequencing and transcriptome ordering along a developmental trajectory (pseudo-time), thereby avoiding the need for the staging of the embryos. The obtained high-resolution and time-sensitive mRNA expression profiles uncovered the exact onset of transcription and degradation of transcripts and revealed an earlier transcription start for several zygotic genes. In addition, degradation patterns suggest that maternal mRNA decay is independent of mRNA levels. By classifying each embryo as male or female, we were also able to study sex-biased transcription between the beginning of zygotic transcription to gastrulation and identified 120 differentially expressed mRNAs. Using sex-specific transcription signatures, embryos can be sexed directly, eliminating the need for Y-chromosome genotyping. Herein, we report an accessible, single-embryo sequencing approach for high-resolution, time-sensitive transcriptome analysis. Our data provide an unparalleled resolution of gene expression during early development and enhance the current understanding of early transcriptional processes.

Published
2022

5. Genome assembly of Chiococca alba uncovers key enzymes involved in the biosynthesis of unusual terpenoids

Author

Linsey Newton, C. Robin Buell, Krystle Wiegert-Rininger, Joshua C. Wood, Britta Hamberger, Wajid Waheed Bhat, Kin H. Lau, John P. Hamilton, Bjoern Hamberger, Brieanne Vaillancourt, and Daniel Holmes

Subjects
AcademicSubjects/SCI01140, AcademicSubjects/MED00774, terpene synthase, Rubiaceae, Flowers, 10×, Haploidy, Coffea canephora, Chiococca alba, Genome, Coffee, linked reads, Terpene, chemistry.chemical_compound, Alkaloids, Tobacco, Genetics, Molecular Biology, Gene, genome, Phylogeny, Synteny, Flavonoids, Alkyl and Aryl Transferases, biology, Full Paper, Terpenes, Molecular Sequence Annotation, General Medicine, biology.organism_classification, alkaloid, Biosynthetic Pathways, chemistry, Fruit, Chromosomal region, Diterpene, Genome, Plant
Abstract

Chiococca alba (L.) Hitchc. (snowberry), a member of the Rubiaceae, has been used as a folk remedy for a range of health issues including inflammation and rheumatism and produces a wealth of specialized metabolites including terpenes, alkaloids, and flavonoids. We generated a 558 Mb draft genome assembly for snowberry which encodes 28,707 high-confidence genes. Comparative analyses with other angiosperm genomes revealed enrichment in snowberry of lineage-specific genes involved in specialized metabolism. Synteny between snowberry and Coffea canephora Pierre ex A. Froehner (coffee) was evident, including the chromosomal region encoding caffeine biosynthesis in coffee, albeit syntelogs of N-methyltransferase were absent in snowberry. A total of 27 putative terpene synthase genes were identified, including 10 that encode diterpene synthases. Functional validation of a subset of putative terpene synthases revealed that combinations of diterpene synthases yielded access to products of both general and specialized metabolism. Specifically, we identified plausible intermediates in the biosynthesis of merilactone and ribenone, structurally unique antimicrobial diterpene natural products. Access to the C. alba genome will enable additional characterization of biosynthetic pathways responsible for health-promoting compounds in this medicinal species.

Published
2020

6. Extensive Genetic Diversity is Present within North American Switchgrass Germplasm

Author

Chris Daum, Kerrie Barry, C. Robin Buell, Jeremy Schmutz, Govindarajan Kunde-Ramamoorthy, Michael D. Casler, Shawn M. Kaeppler, Joseph Evans, E. Charles Brummer, Emily Crisovan, Ananta Acharya, Megan Kennedy, Kin H. Lau, Brieanne Vaillancourt, Hope Hundley, Malay C. Saha, Jerry Jenkins, and Millicent D. Sanciangco

Subjects
0301 basic medicine, Germplasm, Gene Flow, Crop and Pasture Production, lcsh:QH426-470, Population, Plant Biology, Outcrossing, Plant Science, lcsh:Plant culture, Biology, Panicum, Polymorphism, Single Nucleotide, Fixation index, Nucleotide diversity, 03 medical and health sciences, Genetics, lcsh:SB1-1110, Exome, Polymorphism, education, Ecotype, education.field_of_study, Genetic diversity, Ploidies, Ecology, food and beverages, Genetic Variation, Gene Pool, Single Nucleotide, United States, lcsh:Genetics, 030104 developmental biology, Genetics, Population, Gene pool, Agronomy and Crop Science
Abstract

Switchgrass ( is a perennial native North American grass present in two ecotypes: upland, found primarily in the northern range of switchgrass habitats, and lowland, found largely in the southern reaches of switchgrass habitats. Previous studies focused on a diversity panel of primarily northern switchgrass, so to expand our knowledge of genetic diversity in a broader set of North American switchgrass, exome capture sequence data were generated for 632 additional, primarily lowland individuals. In total, over 37 million single nucleotide polymorphisms (SNPs) were identified and a set of 1.9 million high-confidence SNPs were obtained from 1169 individuals from 140 populations (67 upland, 65 lowland, 8 admixed) were used in downstream analyses of genetic diversity and population structure. Seven separate population groups were identified with moderate genetic differentiation [mean fixation index (Fst) estimate of 0.06] between the lowland and the upland populations. Ecotype-specific and population-specific SNPs were identified for use in germplasm evaluations. Relative to rice ( L.), maize ( L.), soybean [ (L.) Merr.], and Gaertn., analyses of nucleotide diversity revealed a high degree of genetic diversity (0.0135) across all individuals, consistent with the outcrossing mode of reproduction and the polyploidy of switchgrass. This study supports the hypothesis that repeated glaciation events, ploidy barriers, and restricted gene flow caused by flowering time differences have resulted in distinct gene pools across ecotypes and geographic regions. These data provide a resource to associate alleles with traits of interest for forage, restoration, and biofuel feedstock efforts in switchgrass.

Published
2018

7. Polymorphisms of the GSTM1, GSTP1, MPO, XRCC1, and NQO1 genes in Chinese patients with non-small cell lung cancers: relationship with aberrant promoter methylation of the CDKN2A and RARB genes

Author

Kin H. Fu, Eunice C. Chan, Yok L. Kwong, and Shui Y. Lam

Subjects
Male, Cancer Research, Lung Neoplasms, Methyltransferase, Genotype, Receptors, Retinoic Acid, Recombinant Fusion Proteins, Retinoic acid receptor beta, Biology, Hematopoietic Cell Growth Factors, medicine.disease_cause, GSTP1, XRCC1, Asian People, Carcinoma, Non-Small-Cell Lung, Granulocyte Colony-Stimulating Factor, Genetics, medicine, Humans, Allele, Promoter Regions, Genetic, Lung cancer, Molecular Biology, Glutathione Transferase, Polymorphism, Genetic, Genes, p16, Methylation, DNA Methylation, Middle Aged, medicine.disease, Molecular biology, Recombinant Proteins, DNA-Binding Proteins, Isoenzymes, X-ray Repair Cross Complementing Protein 1, Glutathione S-Transferase pi, Cancer research, Female, Interleukin-3, Carcinogenesis
Abstract

An association between functional polymorphisms of genes resulting in decreased detoxification of carcinogens or DNA repair and aberrant promoter methylation is an attractive hypothesis in lung carcinogenesis. The genotypes at polymorphic sites of the glutathione S-transferase ( GST ) M1 (null/wildtype) and P1 (nucleotide 2627 A/G), myeloperoxidase ( MPO ) (nucleotide −463 G/A), X-ray repair cross-complementing group 1 ( XRCC1 ) (nucleotides 26304 C/T; 28152 G/A), and NADPH quinine oxidoreductase ( NQO1 ) (nucleotide 609 C/T) genes in 75 Chinese patients with non-small cell lung cancer (NSCLC) were characterized with polymerase chain reaction–restriction fragment length polymorphism. Results were correlated with aberrant methylation of the CDKN2A (alias p16 INK4A ), retinoic acid receptor beta ( RARB ), methylguanine-DNA methyltransferase ( MGMT ), and death-associated-protein ( DAP ) kinase genes in the tumors. In comparison with an age-matched control, none of the polymorphisms were associated with increased lung cancer risks. In male patients, however, the MPO −463 GG homozygous state was associated with CDKN2A (alias p16 INK4A ) methylation (odds ratio OR=3.63, 95% confidence interval CI=1.26–10.51), and the XRCC1 26304 T allele in the heterozygous/homozygous state was associated with methylation of CDKN2A (OR=6.13, 95% CI=1.55–24.16) and RARB (OR=7.67, 95% CI=1.62–36.18). In female patients, the GSTP1 G allele in the heterozygous/homozygous state was associated with RARB methylation (OR=18.0, 95% CI=0.76–427.29). These results showed that functional deficiencies in metabolic pathways that protect cells from carcinogen induced DNA damage might be linked to aberrant promoter methylation of the CDKN2A and RARB genes during lung carcinogenesis.

Published
2005

8. Assembly of Standardized DNA Parts Using BioBrick Ends in E. coli

Author

A. Malcolm Campbell, William Vernon, Olivia Ho-Shing, Todd T. Eckdahl, and Kin H. Lau

Subjects
Genetics, Synthetic biology, chemistry.chemical_compound, chemistry, business.industry, Computer science, Context (language use), BioBrick, Software engineering, business, DNA
Abstract

Synthetic biologists have adopted the engineering principle of standardization of parts and assembly in the construction of a variety of genetic circuits that program living cells to perform useful tasks. In this chapter, we describe the BioBrick standard as a widely used method. We present methods by which new BioBrick parts can be designed and produced, starting with existing clones, naturally occurring DNA, or de novo. We detail the procedures by which BioBrick parts can be assembled into construction intermediates and into biological devices. These protocols are based on our experience in conducting synthetic biology research with undergraduate students in the context of the iGEM competition.

Published
2012

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