Heather Miller Coyle scite author profile

Heather Miller Coyle

4Publications

60Citation Statements Received

61Citation Statements Given

How they've been cited

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108

Affiliations

Lee College, University of New Haven, Brigham and Women's Hospital

Publications

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Untitled

Tausta

Coyle²,

Rothermel

et al. 2002

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NADP-dependent malic enzymes (NADP-ME; EC1.1.1.40) have been implicated in a wide range of metabolic pathways in the plastids and cytosol of plant cells. In maize, an NADP-ME type C4 plant, the most abundant NADP-ME form is the chloroplastic leaf isoform that delivers CO2 intracellularly to ribulose bisphosphate carboxylase (RuBPCase). A second NADP-ME isoform predominates in maize roots and exhibits distinct C3-like enzymatic characteristics. We show that the C3-like isoform is encoded by a pair of nearly identical genes that encode precursor proteins with functional chloroplast transit peptides. Using RT-PCR, we also show that the messages encoding the C4 and C3-like NADP-ME isoforms are differentially regulated with respect to the developmental stage of the leaf, light conditions, and tissue type. Based on these characteristics and on sequence comparison of ME families in other species, we propose a scheme for the origin of the C4-specific NADP-ME gene.

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A Simple DNA Extraction Method for Marijuana Samples Used in Amplified Fragment Length Polymorphism (AFLP) Analysis

Coyle¹,

Shutler

Abrams

et al. 2003

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As a first step in developing a molecular method for the individualization of marijuana samples, we evaluated a plant DNA extraction kit. The QIAGEN plant DNeasy method uses a spin column format for recovery of DNA and is effective for obtaining high molecular weight DNA from leaf, flower (bud), and seed samples of marijuana. The average DNA yield was 125-500 ng per 100 milligrams of fresh plant tissue. The recovered DNA was of polymerase chain reaction (PCR) quality as measured by the ability to generate reproducible amplified fragment length polymorphism (AFLP) profiles. AFLP is a technique used to create a DNA profile for plant varieties and is being applied to marijuana samples by the authors to link growers and distributors of clonal material. The QIAGEN plant DNeasy method was simple, efficient, and reproducible for processing small quantities of marijuana into DNA.

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Analysis of the NMI01 Marker for a Population Database of Cannabis Seeds

Shirley

Allgeier

LaNier³

et al. 2012

Journal of Forensic Sciences

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We have analyzed the distribution of genotypes at a single hexanucleotide short tandem repeat (STR) locus in a Cannabis sativa seed database along with seed-packaging information. This STR locus is defined by the polymerase chain reaction amplification primers CS1F and CS1R and is referred to as NMI01 (for National Marijuana Initiative) in our study. The population database consists of seed seizures of two categories: seed samples from labeled and unlabeled packages regarding seed bank source. Of a population database of 93 processed seeds including 12 labeled Cannabis varieties, the observed genotypes generated from single seeds exhibited between one and three peaks (potentially six alleles if in homozygous state). The total number of observed genotypes was 54 making this marker highly specific and highly individualizing even among seeds of common lineage. Cluster analysis associated many but not all of the handwritten labeled seed varieties tested to date as well as the National Park seizure to our known reference database containing Mr. Nice Seedbank and Sensi Seeds commercially packaged reference samples.

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Field Testing of Collection Cards for Cannabis sativa Samples With a Single Hexanucleotide DNA Marker*,†

Allgeier

Hemenway

Shirley

et al. 2011

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The validity and feasibility of using DNA collection cards in the field for preservation and analysis of Cannabis sativa genotypes were investigated using a highly specific hexanucleotide marker. Collection cards were submitted to the National Marijuana Initiative, which selectively trained and managed the collection of specific types of samples from a variety of participating agencies. Samples collected at seizure sites included fresh marijuana leaf samples, dried "dispensary" samples, U.S. border seizures, and hashish. Using a standardized PCR kit with custom-labeled oligonucleotide primers specific to marijuana, collection cards produced eight genotypes and 13 different alleles, extremely low baselines, and no cross-reactivity with control plant species. Results were produced from all sample types with the exception of hashish. Plant DNA collection cards represent an easily implementable method for the genetic identification and relatedness of C. sativa street and grow site-seized samples with applications for databasing and market disruption.

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