Difference between revisions of "Template:Article of the month"

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(Updated article of the month text.)
(Updated article of the month text.)
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<div style="float: left; margin: 0.5em 0.9em 0.4em 0em;">[[File:Tab4 Djilali Matab22 12-9.png|220px]]</div>
<div style="float: left; margin: 0.5em 0.9em 0.4em 0em;">[[File:Fig2 Torres JofCannRes22 57.png|220px]]</div>
'''"[[Journal:Effects of the storage conditions on the stability of natural and synthetic cannabis in biological matrices for forensic toxicology analysis: An update from the literature|Effects of the storage conditions on the stability of natural and synthetic cannabis in biological matrices for forensic toxicology analysis: An update from the literature]]"'''
'''"[[Journal:High-throughput methods to identify male Cannabis sativa using various genotyping methods|High-throughput methods to identify male Cannabis sativa using various genotyping methods]]"'''


"The use and abuse of [[cannabis]], be it for [[Cannabis (drug)|medicinal]] or recreational purposes, is widely spread among the population. Consequently, a market for more potent and consequently more toxic synthetic [[cannabinoid]]s has flourished, and with it, the need for accurate testing of these substances in intoxicated people. In this regard, one of the critical factors in [[forensic toxicology]] is the stability of these drugs in different biological matrices due to different storage conditions. This review aims to present the most updated and relevant literature of studies performed on the effects of different storage conditions on the stability of cannabis compounds present in various biological [[Matrix (chemical analysis)|matrices]], such as blood and plasma, urine, and oral fluids, as well as in alternative matrices such as breath, bile fluid, hair, sweat, cerumen, and dried blood spots ... ('''[[Journal:Effects of the storage conditions on the stability of natural and synthetic cannabis in biological matrices for forensic toxicology analysis: An update from the literature|Full article...]]''')<br />
"''[[Cannabis sativa]]'' is a primarily [[Dioecy|dioecious]] angiosperm that exhibits sexual developmental plasticity. Developmental genes for staminate male flowers have yet to be elucidated; however, there are regions of male-associated DNA from ''[[Cannabis]]'' (MADC) that correlate with the formation of pollen-producing staminate flowers. MADC2 is an example of a [[polymerase chain reaction]]-based (PCR-based) genetic marker that has been shown to produce a 390-bp amplicon that correlates with the expression of male [[phenotype]]s. We demonstrate applications of a cost-effective high-throughput male [[genotyping]] assay and other genotyping applications of male identification in ''Cannabis sativa'' ... ('''[[Journal:High-throughput methods to identify male Cannabis sativa using various genotyping methods|Full article...]]''')<br />
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''Recently featured'':
''Recently featured'':
: ▪ [[Journal:Effects of the storage conditions on the stability of natural and synthetic cannabis in biological matrices for forensic toxicology analysis: An update from the literature|Effects of the storage conditions on the stability of natural and synthetic cannabis in biological matrices for forensic toxicology analysis: An update from the literature]]
: ▪ [[Journal:Differentiating cannabis products: Drugs, food, and supplements|Differentiating cannabis products: Drugs, food, and supplements]]
: ▪ [[Journal:Differentiating cannabis products: Drugs, food, and supplements|Differentiating cannabis products: Drugs, food, and supplements]]
: ▪ [[Journal:Quality control of cannabis inflorescence and oil products: Response factors for the cost-efficient determination of ten cannabinoids by HPLC|Quality control of cannabis inflorescence and oil products: Response factors for the cost-efficient determination of ten cannabinoids by HPLC]]
: ▪ [[Journal:Quality control of cannabis inflorescence and oil products: Response factors for the cost-efficient determination of ten cannabinoids by HPLC|Quality control of cannabis inflorescence and oil products: Response factors for the cost-efficient determination of ten cannabinoids by HPLC]]
: ▪ [[Journal:A sustainable approach for the reliable and simultaneous determination of terpenoids and cannabinoids in hemp inflorescences by vacuum-assisted headspace solid-phase microextraction|A sustainable approach for the reliable and simultaneous determination of terpenoids and cannabinoids in hemp inflorescences by vacuum-assisted headspace solid-phase microextraction]]

Revision as of 17:41, 10 April 2023

Fig2 Torres JofCannRes22 57.png

"High-throughput methods to identify male Cannabis sativa using various genotyping methods"

"Cannabis sativa is a primarily dioecious angiosperm that exhibits sexual developmental plasticity. Developmental genes for staminate male flowers have yet to be elucidated; however, there are regions of male-associated DNA from Cannabis (MADC) that correlate with the formation of pollen-producing staminate flowers. MADC2 is an example of a polymerase chain reaction-based (PCR-based) genetic marker that has been shown to produce a 390-bp amplicon that correlates with the expression of male phenotypes. We demonstrate applications of a cost-effective high-throughput male genotyping assay and other genotyping applications of male identification in Cannabis sativa ... (Full article...)

Recently featured:

Effects of the storage conditions on the stability of natural and synthetic cannabis in biological matrices for forensic toxicology analysis: An update from the literature
Differentiating cannabis products: Drugs, food, and supplements
Quality control of cannabis inflorescence and oil products: Response factors for the cost-efficient determination of ten cannabinoids by HPLC
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