C L Leeck scite author profile

C L Leeck

5Publications

86Citation Statements Received

66Citation Statements Given

How they've been cited

139

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Affiliations

University of Wisconsin–Madison, Purdue University West Lafayette

Publications

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Analyiss of the micronuclear B type surface protein gene in Paramecium tetruaurelia

1994

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The micronuclear DNA of Paramecium contains sequences that are precisely excised during the formation of the macronuclear (somatic) genome. In this paper we show that four eliminated sequences ranging in size from 28 to 416 base pairs, are present in or near the micronuclear copy of the B surface protein gene. Each excised sequence is bounded by the dinucleotide 5'-TdA-3'. Comparison of the micronuclear B gene with the previously determined micronuclear sequence of the A surface protein gene shows that although the positions of at least three of the eliminated sequences are conserved in both genes, the sequences are highly divergent. Transformation of vegetative macronuclei with fragments of the micronuclear B gene results in replication and maintenance of the DNA, but the micronuclear specific sequences are not removed. Previous studies have shown that the correct incorporation of the B gene into the new macronucleus requires copies of the macronuclear B gene in the old macronucleus. Using macronuclear transformation, we show that the micronuclear B gene can substitute for the macronuclear B gene with regard to its role in DNA processing. This suggests that the macronuclear DNA is not acting as a guide for the excision of the micronuclear specific sequences.

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Non-Mendelian inheritance of macronuclear mutations is gene specific in Paramecium tetraurelia.

Scott¹,

Mikami²,

Leeck³

et al. 1994

Mol. Cell. Biol.

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The ciliated protozoan Paramecium tetraurelia possesses two kinds of nuclei within a single cell. The highly polyploid macronucleus is transcriptionally active and therefore determines the phenotype of the cell. In contrast, the two diploid micronuclei are transcriptionally silent but participate in the nuclear reorganization events of autogamy (self-fertilization) and conjugation (reciprocal exchange of nuclei with cell of the opposite mating type). During either of these events, a new macronuclear genome is produced from the micronuclear genome through a process which involves extensive amplification and rearrangement of micronuclear DNA. This process of macronuclear development results in differences in the genetic content of the two types of nuclei.The previously isolated mutant d48 provides an example of how the macronuclear content in the Paramecium cell can differ from the micronuclear content.

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The 5' coding region of Paramecium surface antigen genes controls mutually exclusive transcription.

Leeck¹,

Forney²

1996

Proc. Natl. Acad. Sci. U.S.A.

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Ligation-mediated PCR amplification of specific fragments from a Class-II restriction endonuclease total digest

Guilfoyle

Leeck

Kroening

et al. 1997

Nucleic Acids Research

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A method is described which permits the ligation- mediated PCR amplification of specific fragments from a Class-II restriction endonuclease total digest. Feasibility was tested using Bcl I and phage lambda DNA as a model enzyme and amplicon system, respectively. Bcl I is one of many widely used restriction enzymes which cleave at palindromic recognition sequences and leave 5'-protruding ends of defined sequence. Using a single pair of universal primers, a given fragment can be specifically amplified after joining the fragments to adaptors consisting of a duplex primer region and a 9-nucleotide protruding single-stranded 5'-end containing the sequence complementary to the cleaved restriction site and a 4-nucleotide 'indexing sequence.' The protruding strand anneals to a restriction fragment by displacing its corresponding strand in the same fragment-specific indexing sequence located juxtaposed to the restriction site. The adaptor is covalently linked to the restriction fragment by T4 DNA ligase, and amplification is carried out under conditions for long-distance PCR using the M13 forward and reverse primers. The technique discriminated robustly between mismatches and perfect matches for the 16 indexing sequences tested to allow individual lambda Bcl I fragments to be amplified from their respective adaptor pairs. A strategy is proposed enabling a non-cloning approach to the accession, physical mapping and sequencing of genomic DNA. The method could also have application in high-throughput genetic mapping and fingerprinting and should expand the enzyme base for ligation- mediated indexing technology which has previously been limited to the Class-IIS and IP restriction endonucleases.

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Molecular and genetic analyses of the B type surface protein gene from Paramecium tetraurelia.

Scott

Leeck

Forney

1993

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The gene encoding the B type variable surface protein from Paramecium tetraurelia stock 51 has been cloned and sequenced. The 7,182 nucleotide open reading frame contains no introns and encodes a cysteine-rich protein that has a periodic structure including three nearly perfect tandem repeats in the central region. Interestingly, the B gene is located near a macronuclear telomere as was shown previously for two other paramecium surface protein genes. In this paper, we characterize four independent mutants with complete macronuclear deletions of the B gene. Previous analysis of different macronuclear deletion mutants of the A surface protein gene demonstrated two types of inheritance: typical Mendelian segregation (as illustrated by d12) and cytoplasmic inheritance (shown by d48). F1 analysis of four B- mutants crossed with wild-type cells reveals heterozygous F1 cell lines derived from both parental cytoplasms contain approximately the same copy number of the B gene, as expected for a recessive Mendelian mutation. Analysis of F2 progeny from three of these four B- mutant crosses indicates that one of the three exhibits a Mendelian 1:1 segregation ratio of B+ and B- cell lines. The other two show a preponderance of B+ cells, but this is not correlated with the parental cytoplasmic type. In addition to having a large number of B+ individuals, the d12.144, A-, B- mutant produced some F2 progeny that stably maintain less than normal macronuclear amounts of the A gene and/or the B gene.

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C L Leeck

Analyiss of the micronuclear B type surface protein gene in Paramecium tetruaurelia

Non-Mendelian inheritance of macronuclear mutations is gene specific in Paramecium tetraurelia.

The 5' coding region of Paramecium surface antigen genes controls mutually exclusive transcription.

Ligation-mediated PCR amplification of specific fragments from a Class-II restriction endonuclease total digest

Molecular and genetic analyses of the B type surface protein gene from Paramecium tetraurelia.

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