Differential expression pattern of an acidic 9/13-lipoxygenase in flower opening and senescence and in leaf response to phloem feeders in the tea plant

Differential expression pattern of an acidic 9/13-lipoxygenase in flower opening and senescence and in leaf response to phloem feeders in the tea plant

<p>Abstract</p> <p>Background</p> <p>Lipoxygenase (LOXs) is a large family of plant enzymes that catalyse the hydroperoxidation of free polyunsaturated fatty acids into diverse biologically active compounds, collectively named phyto-oxylipins. Although multiple isoforms...

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Main Authors: Han Baoyu, Liu Shouan
Format: Article
Language:English
Published: BMC 2010-10-01
Series:BMC Plant Biology
Online Access:http://www.biomedcentral.com/1471-2229/10/228
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spelling doaj-85cd903df1264a23a2bb58a5f5fda53c2020-11-24T21:06:54ZengBMCBMC Plant Biology1471-22292010-10-0110122810.1186/1471-2229-10-228Differential expression pattern of an acidic 9/13-lipoxygenase in flower opening and senescence and in leaf response to phloem feeders in the tea plantHan BaoyuLiu Shouan<p>Abstract</p> <p>Background</p> <p>Lipoxygenase (LOXs) is a large family of plant enzymes that catalyse the hydroperoxidation of free polyunsaturated fatty acids into diverse biologically active compounds, collectively named phyto-oxylipins. Although multiple isoforms of LOXs have been identified in a wide range of annual herbaceous plants, the genes encoding these enzymes in perennial woody plants have not received as much attention. In <it>Camellia sinensis </it>(L.) O. Kuntze, no LOX gene of any type has been isolated, and its possible role in tea plant development, senescence, and defence reaction remains unknown. The present study describes the isolation, characterization, and expression of the first tea plant LOX isoform, namely <it>CsLOX1</it>, and seeks to clarify the pattern of its expression in the plant's defence response as well as in flower opening and senescence.</p> <p>Results</p> <p>Based on amino acid sequence similarity to plant LOXs, a LOX was identified in tea plant and named <it>CsLOX1</it>, which encodes a polypeptide comprising 861 amino acids and has a molecular mass of 97.8 kDa. Heterologous expression in yeast analysis showed that CsLOX1 protein conferred a dual positional specificity since it released both C-9 and C-13 oxidized products in equal proportion and hence was named 9/13-CsLOX1. The purified recombinant CsLOX1 protein exhibited optimum catalytic activity at pH 3.6 and 25°C. Real-time quantitative PCR analysis showed that <it>CsLOX1 </it>transcripts were detected predominantly in flowers, up-regulated during petal senescence, and down-regulated during flower bud opening. In leaves, the gene was up-regulated following injury or when treated with methyl jasmonate (MeJA), but salicylic acid (SA) did not induce such response. The gene was also rapidly and highly induced following feeding by the tea green leafhopper <it>Empoasca vitis</it>, whereas feeding by the tea aphid <it>Toxoptera aurantii </it>resulted in a pattern of alternating induction and suppression.</p> <p>Conclusions</p> <p>Analysis of the isolation and expression of the <it>LOX </it>gene in tea plant indicates that the acidic CsLOX1 together with its primary and end products plays an important role in regulating cell death related to flower senescence and the JA-related defensive reaction of the plant to phloem-feeders.</p> http://www.biomedcentral.com/1471-2229/10/228
collection DOAJ
language English
format Article
sources DOAJ
author Han Baoyu
Liu Shouan
spellingShingle Han Baoyu
Liu Shouan
Differential expression pattern of an acidic 9/13-lipoxygenase in flower opening and senescence and in leaf response to phloem feeders in the tea plant
BMC Plant Biology
author_facet Han Baoyu
Liu Shouan
author_sort Han Baoyu
title Differential expression pattern of an acidic 9/13-lipoxygenase in flower opening and senescence and in leaf response to phloem feeders in the tea plant
title_short Differential expression pattern of an acidic 9/13-lipoxygenase in flower opening and senescence and in leaf response to phloem feeders in the tea plant
title_full Differential expression pattern of an acidic 9/13-lipoxygenase in flower opening and senescence and in leaf response to phloem feeders in the tea plant
title_fullStr Differential expression pattern of an acidic 9/13-lipoxygenase in flower opening and senescence and in leaf response to phloem feeders in the tea plant
title_full_unstemmed Differential expression pattern of an acidic 9/13-lipoxygenase in flower opening and senescence and in leaf response to phloem feeders in the tea plant
title_sort differential expression pattern of an acidic 9/13-lipoxygenase in flower opening and senescence and in leaf response to phloem feeders in the tea plant
publisher BMC
series BMC Plant Biology
issn 1471-2229
publishDate 2010-10-01
description <p>Abstract</p> <p>Background</p> <p>Lipoxygenase (LOXs) is a large family of plant enzymes that catalyse the hydroperoxidation of free polyunsaturated fatty acids into diverse biologically active compounds, collectively named phyto-oxylipins. Although multiple isoforms of LOXs have been identified in a wide range of annual herbaceous plants, the genes encoding these enzymes in perennial woody plants have not received as much attention. In <it>Camellia sinensis </it>(L.) O. Kuntze, no LOX gene of any type has been isolated, and its possible role in tea plant development, senescence, and defence reaction remains unknown. The present study describes the isolation, characterization, and expression of the first tea plant LOX isoform, namely <it>CsLOX1</it>, and seeks to clarify the pattern of its expression in the plant's defence response as well as in flower opening and senescence.</p> <p>Results</p> <p>Based on amino acid sequence similarity to plant LOXs, a LOX was identified in tea plant and named <it>CsLOX1</it>, which encodes a polypeptide comprising 861 amino acids and has a molecular mass of 97.8 kDa. Heterologous expression in yeast analysis showed that CsLOX1 protein conferred a dual positional specificity since it released both C-9 and C-13 oxidized products in equal proportion and hence was named 9/13-CsLOX1. The purified recombinant CsLOX1 protein exhibited optimum catalytic activity at pH 3.6 and 25°C. Real-time quantitative PCR analysis showed that <it>CsLOX1 </it>transcripts were detected predominantly in flowers, up-regulated during petal senescence, and down-regulated during flower bud opening. In leaves, the gene was up-regulated following injury or when treated with methyl jasmonate (MeJA), but salicylic acid (SA) did not induce such response. The gene was also rapidly and highly induced following feeding by the tea green leafhopper <it>Empoasca vitis</it>, whereas feeding by the tea aphid <it>Toxoptera aurantii </it>resulted in a pattern of alternating induction and suppression.</p> <p>Conclusions</p> <p>Analysis of the isolation and expression of the <it>LOX </it>gene in tea plant indicates that the acidic CsLOX1 together with its primary and end products plays an important role in regulating cell death related to flower senescence and the JA-related defensive reaction of the plant to phloem-feeders.</p>
url http://www.biomedcentral.com/1471-2229/10/228
work_keys_str_mv AT hanbaoyu differentialexpressionpatternofanacidic913lipoxygenaseinfloweropeningandsenescenceandinleafresponsetophloemfeedersintheteaplant
AT liushouan differentialexpressionpatternofanacidic913lipoxygenaseinfloweropeningandsenescenceandinleafresponsetophloemfeedersintheteaplant
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