Rhonda J. Honeycutt scite author profile

The megaplasmids and the chromosome from the bacterium Rhizobium meliloti 1021 were separated in preparative quantities by using transverse alternating-field gel electrophoresis. The genetic content of each electrophoretically separated band was determined by Southern hybridization with replicon-specific probes and by comparison with Agrobacterium tumefaciens transconjugants harboring either pSym-a or pSym-b megaplasmids. Pulsed-field gel electrophoresis analyses of PacI (5'-TTAATTAA-3') and SwaI (5'-ATTTAAAT-3') digests of the whole genome and of the separated replicons were used to calculate genome sizes in two R. meliloti strains. In these strains, PacI digestion yielded only four fragments for the entire genome. The sizes of the PacI fragments from R. meliloti 1021 in megabase pairs (Mb) were 3.32 +/- 0.30, 1.42 +/- 0.13, 1.21 +/- 0.10, and 0.55 +/- 0.08, for a total genome size of 6.50 +/- 0.61 Mb. Southern hybridization with replicon-specific probes assigned one PacI fragment to the chromosome of R. meliloti 1021, one to pRme1021a, and two to pRme1021b. PacI digestion of A. tumefaciens pTi-cured, pSym transconjugants confirmed these assignments. In agreement with PacI data, the addition of the six SwaI fragments from R. meliloti 1021 gave a genome size of 6.54 +/- 0.43 Mb. pRme1021a was calculated to be 1.42 +/- 0.13 Mb, 1.34 +/- 0.09 Mb, and 1.38 +/- 0.12 Mb on the basis of PacI digestion, SwaI digestion, and the migration of uncut pRme1021a, respectively. pRme1021b was calculated to be 1.76 +/- 0.18 Mb, 1.65 +/- 0.10 Mb, and 1.74 +/- 0.13 Mb on the basis of PacI digestion, SwaI digestion, and the migration of uncut pRme1021B, respectively. The R. meliloti 1021 chromosome was calculated to be 3.32 +/- 0.30 Mb, 3.55 +/- 0.24 Mb, and 3.26 +/- 0.46 Mb on the basis of PacI data, SwaI data, and the migration of uncut chromosome, respectively.

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Multilocus DNA Sequence Comparisons Rapidly Identify Pathogenic Molds

Rakeman¹,

Bui²,

LaFe³

et al. 2005

J Clin Microbiol

119

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The increasing incidence of opportunistic fungal infections necessitates rapid and accurate identification of the associated fungi to facilitate optimal patient treatment. Traditional phenotype-based identification methods utilized in clinical laboratories rely on the production and recognition of reproductive structures, making identification difficult or impossible when these structures are not observed. We hypothesized that DNA sequence analysis of multiple loci is useful for rapidly identifying medically important molds. Our study included the analysis of the D1/D2 hypervariable region of the 28S ribosomal gene and the internal transcribed spacer (ITS) regions 1 and 2 of the rRNA operon. Two hundred one strains, including 143 clinical isolates and 58 reference and type strains, representing 43 recognized species and one possible new species, were examined. We generated a phenotypically validated database of 118 diagnostic alleles. DNA length polymorphisms detected among ITS1 and ITS2 PCR products can differentiate 20 of 33 species of molds tested, and ITS DNA sequence analysis permits identification of all species tested. For 42 of 44 species tested, conspecific strains displayed >99% sequence identity at ITS1 and ITS2; sequevars were detected in two species. For all 44 species, identifications by genotypic and traditional phenotypic methods were 100% concordant. Because dendrograms based on ITS sequence analysis are similar in topology to 28S-based trees, we conclude that ITS sequences provide phylogenetically valid information and can be utilized to identify clinically important molds. Additionally, this phenotypically validated database of ITS sequences will be useful for identifying new species of pathogenic molds.

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Parentage determination in maize hybrids using the arbitrarily primed polymerase chain reaction (AP-PCR)

Welsh

Honeycutt

McClelland

et al. 1991

Theoret. Appl. Genetics

159

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Using a novel procedure based on the polymerase chain reaction, we have developed a rapid, efficient, and economical method for identifying plant genotypes. The arbitrarily primed polymerase chain reaction (AP-PCR) generates reproducible fingerprints from any organism, without the need for DNA sequence information. These fingerprints include DNA fragment polymorphisms that can be (1) used for varietal identification and parentage determination, (2) followed in segregating populations produced by crosses, (3) used as markers for the construction of genetic maps, and (4) used to generate dendograms of phylogenetic relationships, especially at the intraspecific level. AP-PCR requires only minute quantities of DNA (10-25 ng per reaction) and therefore can be used in situations in which DNA is limiting. We demonstrate the use of AP-PCR to identify inbred parents of hybrid maize plants in double-blind experiments.

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Physical map of the genome of Rhizobium meliloti 1021

1993

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A physical map of the genome of Rhizobium meliloti 1021 is presented. The physical sizes of the three replicons in this genome had previously been determined and are as follows: the chromosome, 3.4 Mb; pSym-b, 1.7 Mb; and pSym-a, 1.4 Mb. The physical maps for this GC-rich genome contain AT-rich restriction sites for SwaI (5'-TAAATTTA-3'), PacI (5'-TTAATTAA-3'), PmeI (5'-GTTTAAAC-3'), and, for pSym-b, SpeI (5'-ACTAGT-3'). In addition, the endonuclease I-CeuI cleaved the 23S rRNA genes in this genome, and perhaps in most eubacterial genomes. I-CeuI digestion and polymerase chain reaction amplification of rrn regions were used to determine that there are at least three rrn loci in R. meliloti, all of which are located on the chromosome. The orientation of the rrn loci was determined by Southern blotting with probes from rrn sequences located 5' and 3' to the I-CeuI site. The rrn loci are clustered in one part of the chromosome and are oriented so that transcription will occur away from a single point in the circle, as observed for the origin of replication in the Escherichia coli and Salmonella typhimurium chromosomes. Fifteen genes that had been tagged by Tn5 insertion were localized to fragments on the chromosome physical map by using the IS50 as a probe in Southern blots. In addition, glt and gap were placed on the physical map by using Southern hybridization with cloned genes. The fortuitous occurrence of SpecI site in Tn5-233 was used to physically map 10 genetically mapped Tn5-233 integrations on pSym-b and to anchor the physical map to the genetic map. Finally, we demonstrate the usefulness of the map by localizing a total of 12 previously unmapped transposon insertions in the genome. This is the first physical map of the genome of a multireplicon member of the family Rhizobiaceae as well as the first physical map of a Rhizobium chromosome.

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