Your search keyword '"Page, Jonathan E."' showing total 58 results

51. Flavonoids, DNA and relationships of Itea and Pterostemon

Author

Bohm, Bruce A, primary, Yang, Ji Yong, additional, Page, Jonathan E, additional, and Soltis, Douglas S, additional

Published

1999

52. The draft genome and transcriptome of Cannabis sativa.

Author

Bakel, Harm van, Stout, Jake M., Cote, Atina G., Tallon, Carling M., Sharpe, Andrew G., Hughes, Timothy R., and Page, Jonathan E.

Published

2011

53. Optimized cDNA libraries for virus-induced gene silencing (VIGS) using tobacco rattle virus.

Author

Enwu Liu and Page, Jonathan E.

Subjects

*ANTISENSE DNA, *PLANT gene silencing, *TOBACCO rattle virus, *PLANT hybridization, *NICOTIANA

Abstract

Background: Virus-induced gene silencing (VIGS) has emerged as a method for performing rapid loss-of-function experiments in plants. Despite its expanding use, the effect of host gene insert length and other properties on silencing efficiency have not been systematically tested. In this study, we probed the optimal properties of cDNA fragments of the phytoene desaturase (PDS) gene for efficient VIGS in Nicotiana benthamiana using tobacco rattle virus (TRV). Results: NbPDS inserts of between 192 bp and 1304 bp led to efficient silencing as determined by analysis of leaf chlorophyll a levels. The region of the NbPDS cDNA used for silencing had a small effect on silencing efficiency with 5' and 3' located inserts performing more poorly than those from the middle. Silencing efficiency was reduced by the inclusion of a 24 bp poly(A) or poly(G) homopolymeric region. We developed a method for constructing cDNA libraries for use as a source of VIGS-ready constructs. Library construction involved the synthesis of cDNA on a solid phase support, digestion with RsaI to yield short cDNA fragments lacking poly(A) tails and suppression subtractive hybridization to enrich for differentially expressed transcripts. We constructed two cDNA libraries from methyl-jasmonate treated N. benthamiana roots and obtained 2948 ESTs. Thirty percent of the cDNA inserts were 401-500 bp in length and 99.5% lacked poly(A) tails. To test the efficiency of constructs derived from the VIGS-cDNA libraries, we silenced the nicotine biosynthetic enzyme, putrescine N-methyltransferase (PMT), with ten different VIGS-NbPMT constructs ranging from 122 bp to 517 bp. Leaf nicotine levels were reduced by more than 90% in all plants infected with the NbPMT constructs. Conclusion: Based on the silencing of NbPDS and NbPMT, we suggest the following design guidelines for constructs in TRV vectors: (1) Insert lengths should be in the range of ~200 bp to ~1300 bp, (2) they should be positioned in the middle of the cDNA and (3) homopolymeric regions (i.e. poly(A/T) tails) should not be included. Our VIGS-cDNA library method, which incorporates these guidelines to produce sequenced, VIGS-ready cDNAs, will be useful for both fast-forward and reverse genetics experiments in TRV vectors. [ABSTRACT FROM AUTHOR]

Published

2008

54. Aromatic and pyrone polyketides synthesized by a stilbene synthase from Rheum tataricum&star;<fn id="fn1"><no>&star;</no>The nucleotide sequence reported in this paper has been submitted to the GenBank/EMBL/DDBJ with the accession number AF508150.</fn>

Author

Samappito, Supachai, Page, Jonathan E., Schmidt, Jürgen, De-Eknamkul, Wanchai, and Kutchan, Toni M.

Subjects

*POLYKETIDES, *POLYGONACEAE, *ESCHERICHIA coli

Abstract

A cDNA encoding a stilbene synthase, RtSTS, was isolated from the rhizomes of Tatar rhubarb, Rheum tataricum L. (Polygonaceae), a medicinal plant containing stilbenes and other polyketides. Recombinant RtSTS was expressed in E. coli and assayed with acetyl-coenzyme A (CoA), n-butyryl-CoA, isovaleryl-CoA, n-hexanoyl-CoA, cinnamoyl-CoA and p-coumaroyl-CoA as primers of polyketide synthesis. RtSTS synthesized resveratrol and a trace amount of naringenin chalcone from p-coumaroyl-CoA, supporting the enzyme''s identification as a resveratrol-type stilbene synthase (EC 2.3.1.95). Bis-noryangonin and p-coumaroyl triacetic acid lactone (CTAL)-type pyrones were observed in minor amounts in the reaction with p-coumaroyl-CoA and as major products with cinnamoyl CoA. As well, such pyrones, and not aromatic polyketides, were identified as the only products in assays with aliphatic and benzoyl CoA esters. Acetonyl-4-hydroxy-2-pyrone, a pyrone synthesized from acetyl-CoA, was identified as a new product of a stilbene synthase. Using Northern blot analysis, RtSTS transcript was found to be highly expressed in R. tataricum rhizomes, with low transcript levels also present in young leaves. This expression pattern correlated with the occurrence of resveratrol, which was detected in higher amounts in R. tataricum rhizomes compared with leaves and petioles using HPLC. Few stilbene synthases have been found in plants, and the identification of RtSTS provides additional sequence and catalytic information with which to study the evolution of plant polyketide synthases. [Copyright &y& Elsevier]

Published

2003

55. Functional Expression and Characterization of Trichome-Specific (-)-Limonene Synthase and (+)-α-Pinene Synthase from Cannabis sativa

Author

Günnewich, Nils, Page, Jonathan E., Köllner, Tobias G., Degenhardt, Jörg, and Kutchan, Toni M.

Abstract

Two recombinant, stereospecific monoterpene synthases, a (-)-limonene synthase (CsTPS1) and a (+)-α-pinene synthase (CsTPS2), encoded by Cannabis sativa L. cv. ‘Skunk’ trichome mRNA, have been isolated and characterized. Recombinant CsTPS1 showed a Kmvalue of 6.8 μM, a Vmaxof 1.1 × 10−4μmol/min and Vmax/Kmof 0.016; the pH optimum was determined at pH 6.5, and a temperature optimum at 40°C. Recombinant CsTPS2 showed a Kmvalue of 10.5 μM, a Vmaxof 2.2 × 10−4μmol/min and Vmax/Kmof 0.021; the pH optimum was determined at pH 7.0, and a temperature optimum at 30°C. Phylogenetic analysis showed that both CsTPSs group within the angiosperms and belong to the Tpsb subgroup of monoterpene synthases. The enzymatic products (-)-limonene and (+)-α-pinene were detected as natural products in C. sativa trichomes.

Published

2007

56. A physical and genetic map of Cannabis sativa identifies extensive rearrangements at the THC/CBD acid synthase loci.

Author

Laverty KU, Stout JM, Sullivan MJ, Shah H, Gill N, Holbrook L, Deikus G, Sebra R, Hughes TR, Page JE, and van Bakel H

Subjects

Gene Rearrangement, Cannabinoids biosynthesis, Cannabinoids genetics, Cannabis genetics, Cannabis metabolism, Chromosome Mapping, Chromosomes, Plant genetics, Chromosomes, Plant metabolism, Ligases genetics, Ligases metabolism, Plant Proteins genetics, Plant Proteins metabolism

Abstract

Cannabis sativa is widely cultivated for medicinal, food, industrial, and recreational use, but much remains unknown regarding its genetics, including the molecular determinants of cannabinoid content. Here, we describe a combined physical and genetic map derived from a cross between the drug-type strain Purple Kush and the hemp variety "Finola." The map reveals that cannabinoid biosynthesis genes are generally unlinked but that aromatic prenyltransferase ( AP ), which produces the substrate for THCA and CBDA synthases (THCAS and CBDAS), is tightly linked to a known marker for total cannabinoid content. We further identify the gene encoding CBCA synthase ( CBCAS ) and characterize its catalytic activity, providing insight into how cannabinoid diversity arises in cannabis. THCAS and CBDAS (which determine the drug vs. hemp chemotype) are contained within large (>250 kb) retrotransposon-rich regions that are highly nonhomologous between drug- and hemp-type alleles and are furthermore embedded within ∼40 Mb of minimally recombining repetitive DNA. The chromosome structures are similar to those in grains such as wheat, with recombination focused in gene-rich, repeat-depleted regions near chromosome ends. The physical and genetic map should facilitate further dissection of genetic and molecular mechanisms in this commercially and medically important plant., (© 2019 Laverty et al.; Published by Cold Spring Harbor Laboratory Press.)

Published

2019

57. Engineering microbes for plant polyketide biosynthesis.

Author

Lussier FX, Colatriano D, Wiltshire Z, Page JE, and Martin VJ

Abstract

Polyketides are an important group of secondary metabolites, many of which have important industrial applications in the food and pharmaceutical industries. Polyketides are synthesized from one of three classes of enzymes differentiated by their biochemical features and product structure: type I, type II or type III polyketide synthases (PKSs). Plant type III PKS enzymes, which will be the main focus of this review, are relatively small homodimeric proteins that catalyze iterative decarboxylative condensations of malonyl units with a CoA-linked starter molecule. This review will describe the plant type III polyketide synthetic pathway, including the synthesis of chalcones, stilbenes and curcuminoids, as well as recent work on the synthesis of these polyketides in heterologous organisms. The limitations and bottlenecks of heterologous expression as well as attempts at creating diversity through the synthesis of novel "unnatural" polyketides using type III PKSs will also be discussed. Although synthetic production of plant polyketides is still in its infancy, their potential as useful bioactive compounds makes them an extremely interesting area of study.

Published

2013

58. Vitamin D deficiency: a paediatric orthopaedic perspective.

Author

Clarke NM and Page JE

Subjects

Bone Density, Bone Density Conservation Agents therapeutic use, Child, Child, Preschool, Female, Fractures, Bone epidemiology, Fractures, Bone prevention & control, Humans, Male, Obesity epidemiology, Orthopedics, Pediatrics, Rickets epidemiology, Sunlight, Vitamin D Deficiency therapy, Ambulatory Care economics, Fractures, Bone etiology, Obesity complications, Rickets etiology, Rickets prevention & control, Vitamin D therapeutic use, Vitamin D Deficiency complications, Vitamin D Deficiency diagnosis

Abstract

Purpose of Review: At the turn of the last century, rickets (vitamin D deficiency) was one of the most common musculoskeletal diseases of the paediatric population presenting to physicians. Today, the most common referral pathway for these patients ends in a paediatric orthopaedic outpatient clinic. Vitamin D deficiency is a clinical entity that can affect all children and should be looked for in all children with musculoskeletal symptoms., Recent Findings: The child at risk of rickets is now white, breastfed, protected from the sun and obese. Vitamin D deficiency can present as atypical muscular pain, pathological fractures or slipped upper femoral epiphysis. Obesity is linked with lower vitamin D levels; however, in the paediatric population, this does not necessarily equal clinical disorder. Vitamin D supplements can be used to reduce the risk of pathological fractures in the cerebral palsy child. It should also form part of the differential diagnosis in the work-up of nonaccidental injuries. Children with a low vitamin D present with a higher incidence of fractures from normal activities. Vitamin D levels need to be assessed before any form of orthopaedic surgery, as it can affect growth, both in the diaphysis of the bone and in the growth plate., Summary: Vitamin D levels are a key element in the successful practice of paediatric orthopaedics. It is not just the possible cause of disorder presenting to the clinician but also extremely important in ensuring the successful postoperative recovery of the patient.

Published

2012