Molecular and Biochemical Characterization of Cotton Epicuticular Wax in Defense against Cotton Leaf Curl Disease

Authors

  • Abdul Qayyum Rao National Center of Excellence in Molecular Biology, 87- west canal bank road, University of the Punjab, Lahore, Pakistan
  • Adnan Muzaffar National Center of Excellence in Molecular Biology, 87- west canal bank road, University of the Punjab, Lahore, Pakistan
  • Ahmad Ali Shahid National Center of Excellence in Molecular Biology, 87- west canal bank road, University of the Punjab, Lahore, Pakistan
  • Idrees Ahmad Nasir National Center of Excellence in Molecular Biology, 87- west canal bank road, University of the Punjab, Lahore, Pakistan
  • Kamran Shehzad Bajwa National Center of Excellence in Molecular Biology, 87- west canal bank road, University of the Punjab, Lahore, Pakistan
  • Muhammad Azmat Ullah Khan National Center of Excellence in Molecular Biology, 87- west canal bank road, University of the Punjab, Lahore, Pakistan
  • Tahir Rehman Samiullah National Center of Excellence in Molecular Biology, 87- west canal bank road, University of the Punjab, Lahore, Pakistan
  • Tayyab Husnain National Center of Excellence in Molecular Biology, 87- west canal bank road, University of the Punjab, Lahore, Pakistan
Abstract:

Background: Gossypium arboreum is resistant to Cotton leaf curl Burewala virus and its cognate Cotton leaf curl Multan betasatellite (CLCuBuV and CLCuMB). However, the G. arboreum wax deficient mutant (GaWM3) is susceptible to CLCuV. Therefore, epicuticular wax was characterized both quantitatively and qualitatively for its role as physical barrier against whitefly mediated viral transmission and co-related with the titer of each viral component (DNA-A, alphasatellite and betasatellite) in plants. Objectives: The hypothesis was the CLCuV titer in cotton is dependent on the amount of wax laid down on plant surface and the wax composition. Results: Analysis of the presence of viral genes, namely alphasatellite, betasatellite and DNA-A, via real-time PCR in cotton species indicated that these genes are detectable in G. hirsutum, G. harknessii and GaWM3, whereas no particle was detected in G. arboreum. Quantitative wax analysis revealed that G. arboreum contained 183 µg/cm2 as compared to GaWM3 with only 95 µg/cm2. G. hirsutum and G. harknessii had 130 µg/cm2 and 146 µg/cm2, respectively. The GC-MS results depicted that Lanceol, cis was 45% in G. harknessii. Heptadecanoic acid was dominant in G. arboreum with 25.6%. GaWM3 had 18% 1,2,-Benenedicarboxylic acid. G. hirsutum contained 25% diisooctyl ester. The whitefly feeding assay with Nile Blue dye showed no color in whiteflies gut fed on G. arboreum. In contrast, color was observed in the rest of whiteflies. Conclusion: From results, it was concluded that reduced quantity as well as absence of (1) 3-trifluoroacetoxytetradecane, (2) 2-piperidinone,n-|4-bromo-n-butyl|, (3) 4-heptafluorobutyroxypentadecane, (4) Silane, trichlorodocosyl-, (5) 6-Octadecenoicacid, methyl ester, and (6) Heptadecanoicacid,16-methyl-,methyl ester in wax could make plants susceptible to CLCuV, infested by whiteflies.

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Journal title

volume 13  issue 4

pages  3- 9

publication date 2015-12-01

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