Ian S Curtis

Overview

Explore the profile of Ian S Curtis including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 8

Citations 89

Followers 0

Related Specialties

Biology

Molecular Biology

Top 10 Co-Authors

Yuji Kamiya

Jae Y Yun

Marco T Buenrostro-Nava

Haruo Seto

Hong G Nam

Siva P Kumpatla

Kazunori Okada

Phillip D Beremand

Shinjiro Yamaguchi

Chandrakanth Emani

Published In

Planta

Methods Mol Biol

Transgenic Res

Plant Cell Rep

Trends Plant Sci

Affiliations

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Recent Articles

Genetic engineering of radish: current achievements and future goals

Curtis I

Plant Cell Rep . 2010 Dec; 30(5):733-44. PMID: 21191596

Radish is a major root crop grown in the Far East and is especially important to some low-income countries where it is consumed on a daily basis. Developments in gene...

Sugarcane DIRIGENT and O-methyltransferase promoters confer stem-regulated gene expression in diverse monocots

Damaj M, Kumpatla S, Emani C, Beremand P, Reddy A, Rathore K, et al.

Planta . 2010 Mar; 231(6):1439-58. PMID: 20352262

Transcription profiling analysis identified Saccharum hybrid DIRIGENT (SHDIR16) and Omicron-Methyltransferase (SHOMT), putative defense and fiber biosynthesis-related genes that are highly expressed in the stem of sugarcane, a major sucrose accumulator...

Lettuce (Lactuca sativa L.)

Curtis I

Methods Mol Biol . 2006 Sep; 343:449-58. PMID: 16988367

Lettuce is a globally important leafy vegetable with the United States being the largest world producers. The crop is susceptible to a number of viruses that are aphid transmitted and...

Modification of plant architecture through the expression of GA 2-oxidase under the control of an estrogen inducible promoter in Arabidopsis thaliana L

Curtis I, Hanada A, Yamaguchi S, Kamiya Y

Planta . 2005 Nov; 222(6):957-67. PMID: 16270204

The gibberellin (GA) 2-oxidase (PcGA2ox1) from bean catalyses the 2beta-hydroxylation of some precursor and bioactive GAs resulting in their inactivation. We have expressed PcGA2ox1 under the control of the estrogen...

Production of transgenic crops by the floral-dip method

Curtis I

Methods Mol Biol . 2004 Aug; 286:103-10. PMID: 15310916

The application of floral dipping toward the production of transformed plants has been rather limited. However, this procedure has enabled the successful production of transformed Medicago truncatula plants (a model...

The noble radish: past, present and future

Curtis I

Trends Plant Sci . 2003 Jul; 8(7):305-7. PMID: 12878009

Recent developments in plant biotechnology have revealed that radish can be genetically modified by a technique called "floral-dipping". This system has been used successfully to delay both bolting and flowering...

Expression of an antisense GIGANTEA (GI) gene fragment in transgenic radish causes delayed bolting and flowering

Curtis I, Nam H, Yun J, Seo K

Transgenic Res . 2002 Jul; 11(3):249-56. PMID: 12113457

A late-flowering transgenic radish has been produced by the expression of an antisense GIGANTEA (GI) gene fragment using a floral-dip method. Twenty-five plants were dipped into a suspension of Agrobacterium...

Antisense and chemical suppression of the nonmevalonate pathway affects ent-kaurene biosynthesis in Arabidopsis

Okada K, Kawaide H, Kuzuyama T, Seto H, Curtis I, Kamiya Y

Planta . 2002 May; 215(2):339-44. PMID: 12029484

Transgenic plants of Arabidopsis thaliana (L.) Heynh. (ecotype Columbia) expressing the antisense AtMECT gene, encoding 2- C-methyl- D-erythritol 4-phosphate cytidylyltransferase, were generated to elucidate the physiological role of the nonmevalonate...