Methods for generating plant genomic libraries

AbstractA total of 568 new simple sequence repeat (SSR)-based markers for barley have been developed from a combination of database sequences and small insert genomic libraries enriched for a range of short simple sequence repeats. Analysis of the SSRs on 16 barley cultivars revealed variable levels of informativeness but no obvious correlation was found with SSR repeat length, motif type, or map position. Of the 568 SSRs developed, 242 were genetically mapped, 216 with 37 previously published SSRs in a single doubled-haploid population derived from the F1 of an interspecific cross between the cultivar Lina and Hordeum spontaneum Canada Park and 26 SSRs in two other mapping populations. A total of 27 SSRs amplified multiple loci. Centromeric clustering of markers was observed in the main mapping population; however, the clustering severity was reduced in intraspecific crosses, supporting the notion that the observed marker distribution was largely a genetical effect. The mapped SSRs provide a framework for rapidly assigning chromosomal designations and polarity in future mapping programs in barley and a convenient alternative to RFLP for aligning information derived from different populations. A list of the 242 primer pairs that amplify mapped SSRs from total barley genomic DNA is presented.

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Two-step functional screen on multiple proteinaceous substrates reveals temperature-robust proteases with a broad-substrate range

Applied Microbiology and Biotechnology ◽

10.1007/s00253-021-11235-9 ◽

2021 ◽

Author(s):

Antonio García-Moyano ◽

Yuleima Diaz ◽

José Navarro ◽

David Almendral ◽

Pål Puntervoll ◽

...

Keyword(s):

Recombinant Expression ◽

Skim Milk ◽

In Silico Analysis ◽

Prolonged Incubation ◽

Genomic Libraries ◽

Functional Screen ◽

Biomass Processing ◽

Screening Parameter ◽

Marine Metagenome ◽

Functional Screens

Abstract To support the bio-based industry in development of environment-friendly processes and products, an optimal toolbox of biocatalysts is key. Although functional screen of (meta)genomic libraries may potentially contribute to identifying new enzymes, the discovery of new enzymes meeting industry compliance demands is still challenging. This is particularly noticeable in the case of proteases, for which the reports of metagenome-derived proteases with industrial applicability are surprisingly limited. Indeed, proteolytic clones have been typically assessed by its sole activity on casein or skim milk and limited to mild screening conditions. Here, we demonstrate the use of six industry-relevant animal and plant by-products, namely bone, feather, blood meals, gelatin, gluten, and zein, as complementary substrates in functional screens and show the utility of temperature as a screening parameter to potentially discover new broad-substrate range and robust proteases for the biorefinery industry. By targeting 340,000 clones from two libraries of pooled isolates of mesophilic and thermophilic marine bacteria and two libraries of microbial communities inhabiting marine environments, we identified proteases in four of eleven selected clones that showed activity against all substrates herein tested after prolonged incubation at 55 °C. Following sequencing, in silico analysis and recombinant expression in Escherichia coli, one functional protease, 58% identical at sequence level to previously reported homologs, was found to readily hydrolyze highly insoluble zein at temperatures up to 50 °C and pH 9–11. It is derived from a bacterial group whose ability to degrade zein was unknown. This study reports a two-step screen resulting in identification of a new marine metagenome-derived protease with zein-hydrolytic properties at common biomass processing temperatures that could be useful for the modern biorefinery industry. Key points • A two-step multi-substrate strategy for discovery of robust proteases. • Feasible approach for shortening enzyme optimization to industrial demands. • A new temperature-tolerant protease efficiently hydrolyzes insoluble zein.

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Structure, expression, chromosomal location and product of the gene encoding Adh2 in Petunia.

Genetics ◽

10.1093/genetics/133.4.999 ◽

1993 ◽

Vol 133 (4) ◽

pp. 999-1007

Author(s):

R G Gregerson ◽

L Cameron ◽

M McLean ◽

P Dennis ◽

J Strommer

Keyword(s):

Chromosomal Location ◽

Higher Plants ◽

Gene Encoding ◽

Genomic Libraries ◽

Regulatory Strategy ◽

Adh1 Gene ◽

Adh Genes ◽

Genes Encoding ◽

Adh Gene ◽

Polymerase Chain

Abstract In most higher plants the genes encoding alcohol dehydrogenase comprise a small gene family, usually with two members. The Adh1 gene of Petunia has been cloned and analyzed, but a second identifiable gene was not recovered from any of three genomic libraries. We have therefore employed the polymerase chain reaction to obtain the major portion of a second Adh gene. From sequence, mapping and northern data we conclude this gene encodes ADH2, the major anaerobically inducible Adh gene of Petunia. The availability of both Adh1 and Adh2 from Petunia has permitted us to compare their structures and patterns of expression to those of the well-studied Adh genes of maize, of which one is highly expressed developmentally, while both are induced in response to hypoxia. Despite their evolutionary distance, evidenced by deduced amino acid sequence as well as taxonomic classification, the pairs of genes are regulated in strikingly similar ways in maize and Petunia. Our findings suggest a significant biological basis for the regulatory strategy employed by these distant species for differential expression of multiple Adh genes.

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Comparative Analysis of SNP Discovery and Genotyping in Fagus sylvatica L. and Quercus robur L. Using RADseq, GBS, and ddRAD Methods

Forests ◽

10.3390/f12020222 ◽

2021 ◽

Vol 12 (2) ◽

pp. 222

Author(s):

Bartosz Ulaszewski ◽

Joanna Meger ◽

Jaroslaw Burczyk

Keyword(s):

Population Genomics ◽

De Novo ◽

Genetic Studies ◽

Genomic Libraries ◽

Reduced Representation ◽

Large Numbers ◽

Broadleaved Tree Species ◽

Fagus Sylvatica L ◽

Reference Genomes ◽

Future Population

Next-generation sequencing of reduced representation genomic libraries (RRL) is capable of providing large numbers of genetic markers for population genetic studies at relatively low costs. However, one major concern of these types of markers is the precision of genotyping, which is related to the common problem of missing data, which appears to be particularly important in association and genomic selection studies. We evaluated three RRL approaches (GBS, RADseq, ddRAD) and different SNP identification methods (de novo or based on a reference genome) to find the best solutions for future population genomics studies in two economically and ecologically important broadleaved tree species, namely F. sylvatica and Q. robur. We found that the use of ddRAD method coupled with SNP calling based on reference genomes provided the largest numbers of markers (28 k and 36 k for beech and oak, respectively), given standard filtering criteria. Using technical replicates of samples, we demonstrated that more than 80% of SNP loci should be considered as reliable markers in GBS and ddRAD, but not in RADseq data. According to the reference genomes’ annotations, more than 30% of the identified ddRAD loci appeared to be related to genes. Our findings provide a solid support for using ddRAD-based SNPs for future population genomics studies in beech and oak.

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Micronuclear DNA sequences from Tetrahymena do not confer mitotic stability on ARS plasmids in Saccharomyces

Genome ◽

10.1139/g88-116 ◽

1988 ◽

Vol 30 (5) ◽

pp. 690-696 ◽

Cited By ~ 3

Author(s):

Wendy H. Horsfall ◽

Ronald E. Pearlman

Keyword(s):

Saccharomyces Cerevisiae ◽

Dna Sequences ◽

Copy Number ◽

Tetrahymena Thermophila ◽

Assay System ◽

Mitotic Stability ◽

Yeast Saccharomyces Cerevisiae ◽

Genomic Libraries ◽

Ade2 Gene

Genomic libraries containing micronuclear DNA sequences from Tetrahymena thermophila have been constructed in a vector containing ARS1, SUP11, and ura3 sequences from the yeast Saccharomyces cerevisiae. When transformed into a strain of S. cerevisiae carrying a suppressible ochre mutation in the ade2 gene, viable transformants are obtained only if the transforming plasmid is maintained at a copy number of one or two per cell. Mitotic segregation of the plasmid is easily assessed in a colour assay of transformants. Using this assay system, we showed that micronuclear DNA from Tetrahymena does not contain sequences that confer mitotic stability on yeast ARS-containing plasmids; i.e., sequences that function analogously to yeast centromere sequences. One transformant was analyzed that carries Tetrahymena sequences that maintain the copy number of the ARS plasmid at one or two per cell. However, these sequences do not confer mitotic stability on the transformants and they confer a phenotype in this assay similar to that of the REP3 gene of the yeast 2 μm plasmid.Key words: mitotic stability, centromere, Tetrahymena, Saccharomyces.

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Long-read sequence confirmed a large deletion of MYH6 and MYH7 in a family with atrial septal defect

European Heart Journal ◽

10.1093/ehjci/ehaa946.3724 ◽

2020 ◽

Vol 41 (Supplement_2) ◽

Author(s):

K Sonoda ◽

S Ohno ◽

M Horie

Keyword(s):

Atrial Septal Defect ◽

Septal Defect ◽

Break Point ◽

Large Deletion ◽

Single Nucleotide Variants ◽

Genomic Libraries ◽

Flow Cells ◽

Inherited Diseases ◽

Long Read ◽

Long Range Pcr

Abstract Background Genome structural variants (SVs) have larger effect on human genome functions than single nucleotide variants (SNVs). Although short-read sequencing (SRS) is current major next generation sequencing method and has given us a great benefit to elucidate the genetic background of inherited diseases, it does not detect SVs accurately. Long-read sequencing (LRS) produces tens to thousands of kilobases reads and detects the breakpoints of complex SVs. This study aimed to confirm a large deletion, which was suspected by SRS, using LRS by Oxford Nanopore technology (ONT). Methods Genomic libraries for SRS was prepared with HaloPlex. Targeted SRS was performed for 58 genes with MiSeq. Genomic libraries for LRS were prepared using the Ligation sequencing 1D kit SQK-LSK109 (ONT). Whole genome LRS was performed with GridION X5 and R9.4 flow cells (ONT). Results The patient was a five-month-old boy with atrial septal defect (ASD) and atrial tachycardia. Though SRS failed to identify any causative SNVs, the results with SureCall software (Agilent) suspected a deletion between exon 3 to exon 26 in MYH6 encoding α heavy chains of cardiac myosin. The variants in MYH6 are known to be associated with ASD. Because a deletion between MYH6 exon 26 and MYH7 exon 27 was reported as esv2748480 on the Database of Genomic Variants, we performed long-range PCR from MYH6 intron26 to MYH7 exon26 and found an abnormal 1.5K bases PCR product only in the case. Due to high homology of MYH6 and MYH7, Sanger sequencing failed to detect the break point. In LRS, 3 flow cells generated 3.8M base-called reads containing 42G bases with N50 of 13K bases. We used NGMLR, which is a long-read mapper, to align the reads to the human reference genome (hg38). SVs were called by Sniffles detecting all types of SVs. The deletion was found to range from chr14: 23390037 to 23419824 (see figure) and did not contain other SVs. There was no pathogenic SV on ACTC1, GATA4, TBX20 and TLL1 which are genes related to ASD on Genetic Testing Registry. His mother had also ASD and harbored the same deletion. Conclusions This is the first report to identify a large deletion between MYH6 and MYH7 in the family with ASD. The combination of SRS and LRS is useful to detect SVs in patients with suspected inherited diseases but carried no causative SNVs. Funding Acknowledgement Type of funding source: None

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A two-host fosmid system for functional screening of (meta)genomic libraries from extreme thermophiles

Systematic and Applied Microbiology ◽

10.1016/j.syapm.2008.01.003 ◽

2009 ◽

Vol 32 (3) ◽

pp. 177-185 ◽

Cited By ~ 49

Author(s):

Angel Angelov ◽

Markus Mientus ◽

Susanne Liebl ◽

Wolfgang Liebl

Keyword(s):

Functional Screening ◽

Genomic Libraries ◽

Extreme Thermophiles

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σE Regulates and Is Regulated by a Small RNA in Escherichia coli

Journal of Bacteriology ◽

10.1128/jb.00020-07 ◽

2007 ◽

Vol 189 (11) ◽

pp. 4243-4256 ◽

Cited By ~ 100

Author(s):

Karl M. Thompson ◽

Virgil A. Rhodius ◽

Susan Gottesman

Keyword(s):

Escherichia Coli ◽

Small Rnas ◽

Noncoding Rna ◽

Response Regulator ◽

Heterologous Promoter ◽

Genomic Libraries ◽

Multicopy Suppressors ◽

Intergenic Regions ◽

Transposon Mutants

ABSTRACT RybB is a small, Hfq-binding noncoding RNA originally identified in a screen of conserved intergenic regions in Escherichia coli. Fusions of the rybB promoter to lacZ were used to screen plasmid genomic libraries and genomic transposon mutants for regulators of rybB expression. A number of plasmids, including some carrying rybB, negatively regulated the fusion. An insertion in the rep helicase and one upstream of dnaK decreased expression of the fusion. Multicopy suppressors of these insertions led to identification of two plasmids that stimulated the fusion. One contained the gene for the response regulator OmpR; the second contained mipA, encoding a murein hydrolase. The involvement of MipA and OmpR in cell surface synthesis suggested that the rybB promoter might be dependent on σE. The sequence upstream of the +1 of rybB contains a consensus σE promoter. The activity of rybB-lacZ was increased in cells lacking the RseA anti-sigma factor and when σE was overproduced from a heterologous promoter. The activity of rybB-lacZ and the detection of RybB were totally abolished in an rpoE-null strain. In vitro, σE efficiently transcribes from this promoter. Both a rybB mutation and an hfq mutation significantly increased expression of both rybB-lacZ and rpoE-lacZ fusions, consistent with negative regulation of the σE response by RybB and other small RNAs. Based on the plasmid screens, NsrR, a repressor sensitive to nitric oxide, was also found to negatively regulate σE-dependent promoters in an RseA-independent fashion.

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Multiple calmodulin mRNA species are derived from two distinct genes

Molecular and Cellular Biology ◽

10.1128/mcb.7.5.1873-1880.1987 ◽

1987 ◽

Vol 7 (5) ◽

pp. 1873-1880

Author(s):

H Nojima ◽

K Kishi ◽

H Sokabe

Keyword(s):

Dna Sequences ◽

Northern Blotting ◽

Amino Acid Sequences ◽

Cdna Clones ◽

Rat Tissues ◽

Coding Region ◽

Genomic Libraries ◽

Mrna Species ◽

Nuclease Mapping ◽

Rat Genome

We have observed three calmodulin mRNA species in rat tissues. In order to know from how many expressed genes they are derived, we have investigated the genomic organization of calmodulin genes in the rat genome. From a rat brain cDNA library, we obtained two kinds of cDNAs (pRCM1 and pRCM3) encoding authentic calmodulin. DNA sequence analysis of these cDNA clones revealed substitutions of nucleotides at 73 positions of 450 nucleotides in the coding region, although the amino acid sequences of these calmodulins are exactly the same. DNA sequences in the 5' and 3' noncoding regions are quite different between these two cDNAs. From these results, we conclude that they are derived from two distinct bona fide calmodulin genes, CaMI (pRCM1) and CaMII (pRCM3). Total genomic Southern hybridization suggested four distinct calmodulin-related genes in the rat genome. By cloning and sequencing the calmodulin-related genes from rat genomic libraries, we demonstrated that the other two genes are processed pseudogenes generated from the CaMI (lambda SC9) and CaMII (lambda SC8) genes, respectively, through an mRNA-mediated process of insertions. Northern blotting showed that the CaMI gene is transcribed in liver, muscle, and brain in similar amounts, whereas the CaMII gene is transcribed mainly in brain. S1 nuclease mapping indicated that the CaMI gene produced two mRNA species (1.7 and 4 kilobases), whereas the CaMII gene expressed a single mRNA species (1.4 kilobases).

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