129 lines
17 KiB
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129 lines
17 KiB
XML
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<mods:title id="AF4EB72BFB71A50E3C548DA5CB406F50">Benzoylsalicylic acid isolated from seed coats of Givotia rottleriformis induces systemic acquired resistance in tobacco and Arabidopsis</mods:title>
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<mods:namePart id="FA053EC23CC2B447B98ECFFD59DBB84D">Kamatham, Samuel</mods:namePart>
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<mods:affiliation id="4D33C11FF9A8463C5D92F02C596FA396">Department of Plant Sciences, School of Life Sciences, University of Hyderabad, Gachibowli, Hyderabad 500 046, Telangana, India & Department of Biochemistry, School of Life Sciences, University of Hyderabad, Gachibowli, Hyderabad 500 046, Telangana, India</mods:affiliation>
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<mods:namePart id="7453E1F3CDB0D30D2EE69E981DF8CC14">Neela, Kishore Babu</mods:namePart>
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<mods:namePart id="9C312B9F5CC2E301B64C5161D9BBD405">Pasupulati, Anil Kumar</mods:namePart>
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<mods:namePart id="D62AB5D0516CF287C9BF88C6CA78BC42">Pallu, Reddanna</mods:namePart>
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<mods:namePart id="A41ECBFE24874674657D7B79E0F66D1F">Singh, Surya Satyanarayana</mods:namePart>
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<mods:namePart id="3EC48A5D28DE6BFEC576582BA4BFFC0D">Gudipalli, Padmaja</mods:namePart>
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<mods:title id="6CFC37BE0FCD3DB51FBC141720E7C632">Phytochemistry</mods:title>
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<mods:date id="0A356BAEBDC57BA1684B7EA1236601D8">2016</mods:date>
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<treatment id="03ABE15AFF80FFC8635CAACA77A1FAA5" ID-DOI="http://doi.org/10.5281/zenodo.10530382" ID-Zenodo-Dep="10530382" LSID="urn:lsid:plazi:treatment:03ABE15AFF80FFC8635CAACA77A1FAA5" httpUri="http://treatment.plazi.org/id/03ABE15AFF80FFC8635CAACA77A1FAA5" lastPageId="3" lastPageNumber="13" pageId="2" pageNumber="13">
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<subSubSection id="C31803C7FF80FFC9635CAACA72D5FD4A" box="[831,1443,687,707]" pageId="2" pageNumber="13" type="nomenclature">
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<paragraph id="8BBD504CFF80FFC9635CAACA72D5FD4A" blockId="2.[831,1443,687,707]" box="[831,1443,687,707]" pageId="2" pageNumber="13">
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<heading id="D0F5E720FF80FFC9635CAACA72D5FD4A" box="[831,1443,687,707]" fontSize="36" level="2" pageId="2" pageNumber="13" reason="3">
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2.2. Detection of SA precursors in seed coats of
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<taxonomicName id="4C022BCFFF80FFC96569AACA72D5FD4A" ID-CoL="6KHDL" authority="Griff." box="[1290,1443,687,707]" class="Magnoliopsida" family="Euphorbiaceae" genus="Givotia" kingdom="Plantae" order="Malpighiales" pageId="2" pageNumber="13" phylum="Tracheophyta" rank="species" species="rottleriformis">G. rottleriformis</taxonomicName>
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<paragraph id="8BBD504CFF80FFC8633DAA8D77A1FAA5" blockId="2.[831,1501,744,958]" lastBlockId="3.[87,757,1026,1324]" lastPageId="3" lastPageNumber="14" pageId="2" pageNumber="13">
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The other compounds of fraction 3 were identified as BA that eluted at RT 14.7 min, salicylic acid (SA) at RT 15.3 min, benzaldehyde (BD) at RT 19.4 min, and CA at RT 21.4 min (
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<figureCitation id="13394CC9FF80FFC96548AB457229FCBA" box="[1323,1375,800,819]" captionStart="Fig" captionStartId="2.[113,139,1953,1967]" captionTargetBox="[182,1431,993,1923]" captionTargetId="figure-596@2.[181,1432,992,1924]" captionTargetPageId="2" captionText="Fig. 1. (a and b). RP-HPLC chromatogram of active fraction-3 showing salicylic acid precursors and BzSA. (a) Preparative HPLC chromatogram showing benzoic acid (RT at 14.5 min), salicylic acid (RT at 15.3 min), benzaldehyde (RT at 19.4 min), cinnamic acid (RT at 22.5 min) and benzoylsalicylic acid (RT at 22.8 min). (b) Analytical HPLC chromatogram of purified BzSA. The single peak eluted at RT 17.6 min is purified BzSA." figureDoi="http://doi.org/10.5281/zenodo.10484906" httpUri="https://zenodo.org/record/10484906/files/figure.png" pageId="2" pageNumber="13">Fig. 1</figureCitation>
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and Supplementary
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<figureCitation id="13394CC9FF80FFC963F9AB597376FCC6" box="[922,1024,828,847]" captionStart="Fig" captionStartId="7.[87,113,1885,1899]" captionTargetBox="[149,1409,1055,1855]" captionTargetId="figure-573@7.[148,1411,1054,1856]" captionTargetPageId="7" captionText="Fig. 6. (a–d) Development of SAR in Arabidopsis NahG plants after different treatments followed by TMV inoculation. (a) AtPR1 and AtPR5 expression in systemic leaves of WT plants. (b) AtPR1 and AtPR5 expression in systemic leaves of NahG plants. (c) TMV-induced leaf necrosis in SA, ASA and BzSA treated local and systemic leaves of WT (Upper panel) and SA deficient NahG Arabidopsis plants after treatment with SA, ASA and BzSA followed by TMV inoculation (Lower panel). (d) Western-blot analysis of TMV coat protein (CP) levels in SA, ASA and BzSA treated systemic leaves of NahG plants after TMV inoculation. Tobacco plants sprayed with water (mock) or 0.1% dimethylsulphoxide (DMSO) or abraded with carborandum (CARB) served as controls. Plants inoculated with TMV served as infection controls.Treated leaves were local and the distal leaves that did not receive any treatment were systemic. Actin8 was used as a loading control." figureDoi="http://doi.org/10.5281/zenodo.10484918" httpUri="https://zenodo.org/record/10484918/files/figure.png" pageId="2" pageNumber="13">Fig. S6a–d</figureCitation>
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). The purified BA and SA were also analysed by IR and NMR (Supplementary Figs. S7a and b and S8a–c). We also detected methyl salicylate (MeSA) and methyl benzoate (MeBA) in active fraction 3 (Supplementary Fig. S9). The conjugates of the SA and BA have already been reported previously (Chong et al., 2001;
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<bibRefCitation id="EF932DBDFF81FFC860B7AC67761AFB9C" author="Lee, H. I. & Leon, J. & Raskin, I." box="[212,364,1026,1045]" pageId="3" pageNumber="14" pagination="4076 - 4079" refId="ref11990" refString="Lee, H. I., Leon, J., Raskin, I., 1995. Biosynthesis and metabolism of salicylic acid. Proc. Natl. Acad. Sci. U. S. A. 92, 4076 - 4079." type="journal article" year="1995">Lee et al., 1995</bibRefCitation>
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). The biosynthesis of
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and its role in disease resistance has been established in various plants (
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<bibRefCitation id="EF932DBDFF81FFC862C0AC7B77A7FBC4" author="Meuwly, P. & Molders, W. & Buchala, A. & Metraux, J. P." pageId="3" pageNumber="14" pagination="1107 - 1114" refId="ref12238" refString="Meuwly, P., Molders, W., Buchala, A., Metraux, J. P., 1995. Local and systemic biosynthesis of salicylic acid in infected cucumber plants. Plant Physiol. 109, 1107 - 1114." type="journal article" year="1995">Meuwly et al., 1995</bibRefCitation>
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;
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<bibRefCitation id="EF932DBDFF81FFC86083AC5F76CAFBC4" author="Ribnicky, D. M. & Shulaev, V. V. & Raskin, I. I." box="[224,444,1082,1101]" pageId="3" pageNumber="14" pagination="565 - 572" refId="ref12852" refString="Ribnicky, D. M., Shulaev, V. V., Raskin, I. I., 1998. Intermediates of salicylic acid biosynthesis in tobacco. Plant Physiol. 118, 565 - 572." type="journal article" year="1998">Ribnicky et al., 1998</bibRefCitation>
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;
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<bibRefCitation id="EF932DBDFF81FFC861AAAC5F75C4FBC4" author="Silverman, P. & Seskar, M. & Kanter, D. & Schweizer, P. & Metraux, J. P. & Raskin, I." box="[457,690,1082,1101]" pageId="3" pageNumber="14" pagination="633 - 639" refId="ref13431" refString="Silverman, P., Seskar, M., Kanter, D., Schweizer, P., Metraux, J. P., Raskin, I., 1995. Salicylic acid in rice (Biosynthesis, conjugation, and possible role). Plant Physiol. 108, 633 - 639." type="journal article" year="1995">Silverman et al., 1995</bibRefCitation>
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;
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<bibRefCitation id="EF932DBDFF81FFC862A2AC5F77FBFBE0" author="Vogt, T." pageId="3" pageNumber="14" pagination="2 - 20" refId="ref13875" refString="Vogt, T., 2010. Phenylpropanoid biosynthesis. Mol. Plant 3, 2 - 20." type="journal article" year="2010">Vogt, 2010</bibRefCitation>
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;
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<bibRefCitation id="EF932DBDFF81FFC860F5AC3076F5FBE0" author="Wildermuth, M. C. & Dewdney, J. & Wu, G. & Ausubel, F. M." box="[150,387,1109,1129]" pageId="3" pageNumber="14" pagination="562 - 565" refId="ref14008" refString="Wildermuth, M. C., Dewdney, J., Wu, G., Ausubel, F. M., 2001. Isochorismate synthase is required to synthesize salicylic acid for plant defence. Nature 414, 562 - 565." type="journal article" year="2001">Wildermuth et al., 2001</bibRefCitation>
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). The precursors of
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pathway were identified as
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<collectionCode id="ED13C889FF81FFC860BDAC17778DFB0C" box="[222,251,1138,1157]" country="USA" name="Chicago Academy of Sciences" pageId="3" pageNumber="14" type="Museum">CA</collectionCode>
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, BD, benzoyl-CoA and
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<collectionCode id="ED13C889FF81FFC8618BAC177572FB0C" box="[488,516,1138,1157]" country="Argentina" lsid="urn:lsid:biocol.org:col:15002" name="Museo Argentino de Ciencias Naturales Bernardino Rivadavia" pageId="3" pageNumber="14" type="Herbarium">BA</collectionCode>
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(
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<bibRefCitation id="EF932DBDFF81FFC86277AC147587FB0C" author="Boatright, J. & Negre, F. & Chen, X. & Kish, C. M. & Wood, B. & Peel, G. & Orlova, I. & Gang, D. & Rhodes, D. & Dudareva, N." box="[532,753,1137,1157]" pageId="3" pageNumber="14" pagination="1993 - 2011" refId="ref10179" refString="Boatright, J., Negre, F., Chen, X., Kish, C. M., Wood, B., Peel, G., Orlova, I., Gang, D., Rhodes, D., Dudareva, N., 2004. Understanding in vivo benzenoid metabolism in petunia petal tissue. Plant Physiol. 135, 1993 - 2011." type="journal article" year="2004">Boatright et al., 2004</bibRefCitation>
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;
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<bibRefCitation id="EF932DBDFF81FFC86034ACE87676FB29" author="Gao, Q. M. & Zhu, S. & Kachroo, P. & Kachroo, A." box="[87,256,1165,1185]" pageId="3" pageNumber="14" pagination="228" refId="ref11507" refString="Gao, Q. M., Zhu, S., Kachroo, P., Kachroo, A., 2015. Signal regulators of systemic acquired resistance. Front. Plant Sci. 6, 228." type="journal article" year="2015">Gao et al., 2015</bibRefCitation>
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;
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<bibRefCitation id="EF932DBDFF81FFC8616EACE87694FB29" author="Ribnicky, D. M. & Shulaev, V. V. & Raskin, I. I." box="[269,482,1165,1185]" pageId="3" pageNumber="14" pagination="565 - 572" refId="ref12852" refString="Ribnicky, D. M., Shulaev, V. V., Raskin, I. I., 1998. Intermediates of salicylic acid biosynthesis in tobacco. Plant Physiol. 118, 565 - 572." type="journal article" year="1998">Ribnicky et al., 1998</bibRefCitation>
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). Though the biosynthesis of
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is well known in plants (
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<bibRefCitation id="EF932DBDFF81FFC861CFACCC75FDFB35" author="Ribnicky, D. M. & Shulaev, V. V. & Raskin, I. I." box="[428,651,1193,1213]" pageId="3" pageNumber="14" pagination="565 - 572" refId="ref12852" refString="Ribnicky, D. M., Shulaev, V. V., Raskin, I. I., 1998. Intermediates of salicylic acid biosynthesis in tobacco. Plant Physiol. 118, 565 - 572." type="journal article" year="1998">Ribnicky et al., 1998</bibRefCitation>
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;
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<bibRefCitation id="EF932DBDFF81FFC862F9ACCC767EFB51" author="Seyfferth, C. & Tsuda, K." pageId="3" pageNumber="14" pagination="697" refId="ref13237" refString="Seyfferth, C., Tsuda, K., 2014. Salicylic acid signal transduction: the initiation of biosynthesis, perception and transcriptional reprogramming. Front. Plant Sci. 5, 697." type="journal article" year="2014">Seyfferth and Tsuda, 2014</bibRefCitation>
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;
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<bibRefCitation id="EF932DBDFF81FFC86174ACA07562FB51" author="Wildermuth, M. C. & Dewdney, J. & Wu, G. & Ausubel, F. M." box="[279,532,1221,1241]" pageId="3" pageNumber="14" pagination="562 - 565" refId="ref14008" refString="Wildermuth, M. C., Dewdney, J., Wu, G., Ausubel, F. M., 2001. Isochorismate synthase is required to synthesize salicylic acid for plant defence. Nature 414, 562 - 565." type="journal article" year="2001">Wildermuth et al., 2001</bibRefCitation>
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), identification of
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along with its precursors and its new derivative BzSA in the present study adds new information with respect to metabolism of
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in plants.
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