I= USE OF ANTISENSE RNA TECHNOLOGY TO SUPPRESS COTTON LEAF CURL VIRUS INFECTION IN A MODEL PLANT SYSTEM
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Title of Thesis
USE OF ANTISENSE RNA TECHNOLOGY TO SUPPRESS COTTON LEAF CURL VIRUS INFECTION IN A MODEL PLANT SYSTEM

Author(s)
Shaheen Asad
Institute/University/Department Details
University of the Punjab, Lahore
Session
2004
Subject
Biochemistry
Number of Pages
215
Keywords (Extracted from title, table of contents and abstract of thesis)
antisense rna technology, cotton leaf curl virus, cotton leaf curl disease, clcud, clcuv, geminiviruses, begomoviruses

Abstract
Cotton leaf curl disease (CLCuD) is caused by Cotton leaf curl virus (CLCuV) DNA A, a geminivirus and a single-stranded satellite DNA B responsible for inducing symptoms. Antisense RNA technology was used to develop transgenic plants resistant to CLCuD. Three regions DI/4 (466 bp), DI (543 bp) and Dl/d2/d3 (526 bp) of AC1 4 genes of CI ,CuV DNA A were amplified by PCR using specific pairs of primers. Sequence and protein translation analysis showed that these three regions encompassed CLCuV DNA A (i) Dl/4 - the 5 half of the replication gene ACI, (encodes the amino acids 1-213 of the 360 long Rep protein) and an of the AC4 ORF (ii) DI - the 3' half of ACI (excluding overlap with AC2 and A(4), (encodes amino acids 212-330 of Rep, but with an internal methionine residue for translational initiation, only at position 274) and (iii) J) I /d2/d3-AC2, a transcription activator, and AC3, a replication enhancer (plus the last 97 bases of the AC I, and excluding the initiation codon of AC2 and 23 bases of the 3 end of AC3 (encodes amino acids 331 360 of Rep [no methionine], amino acids 2-118 of the 134 long TrAP with methionine 112 [encoded by AC2J and amino acids 1-127 of the 134 long REn.

DI/4, 01 and 0l/d2/d3 fragments of CLCuV ONA A were individually cloned in sense and antisense orientations in plasmid pJIT 60 under control of enhanced Cauliflower mosaic virus (CaMV) 35S promoter and poly A signal sequence for constructing six plant expression cassettes. The sense and antisense orientations of these clones were determined by restriction and sequence analysis. These six plant expression cassettes were sub cloned in plant transformation binary vector pGA482. Recombinant plasmids were individually transformed into Agrobacterium tumefaciens strain LBA4404 by electroporation.

Agrobacterium mediated transformation of tobacco leaf discs via direct shoot induction and cotton hypocotyl sections via somatic embryogenesis were carried out. Explants were placed on shoot (tobacco leaf discs) and callus (cotton hypocotyl) induction medium containing kanamycin for npt II gene selection. Transformations of tobacco and cotton were carried out in three different batches for each construct. In tobacco and cotton, about 20-25 putative independent transgenic (kanamycin resistant) lines per construct were produced. Twenty phenotypically normal selected To lines for each construct were selfed to produce T1 plants. The transformation efficiency of tobacco and cotton explants was about 65% and 20% respectively.

PCR results indicated that almost all-independent lines of tobacco and cotton contained both specific (sense and antisense gene of D1/4, D1 and Dl/d2/d3) and npt 11 genes. Southern analysis of the selected transgenic lines showed that 1-3 copies of transgenes were present in tobacco and cotton. Northern analysis indicated that transgenes were expressed at transcriptional level and transgene mRNA accumulation in cytoplasm varied among transgenic lines

Seventy two (thirty six each for sense and antisense) lines of tobacco and cotton for all the six constructs were tested for CLCuD resistance in containment. Eighteen lines of tobacco (twelve sense and six antisense) and eleven lines of cotton (seven sense and four antisense) showed stable heritable resistance in T1-T3 generations. The percentage resistance of these lines varied between70-100(%. No recovery phenomenon was observed in susceptibl plants. Multiplex PCR revealed the presence of both CLCuV-26 and CLCuV-72b in the infected tohacco plants. Southern blots showed DNA A and DNA B replication in control and susceptible plant lines while resistant plant lines contained no delectable amounts of DN As of either CLCuO components. No transcripts (gcminiviral and transgenes) were detected by Northern analysis of selected resistant plants after exposure to viruliferous whiteflies as compared to susceptible lines and controls.

Resistance in D I antisense a transgenic line of cotton was further evaluated in field trials over two growing seasons. Plants of resistant lines showed 90-100% stable resistance to (,LCuD under field conditions, which confirmed the containment data. The resistant plants neither developed symptoms nor showed replication of CLCuD components in randomly selected resistant plants. No geminiviral transcripts were detected in these resistant plants in contrast to those detected in susceptible control plants. The double-stranded RN As (dsRNAs) were detected in the uninfected (unexposed to whitef1ies) resistant sense transgenic tobacco lines.

No viral and transgene RNA was detected in resistant lines following infection and selected uninfected resistant tobacco sense lines revealed dsRNAs, indicating that the most likely mechanism of resistance is via post-transcriptional gene silencing.

Download Full Thesis
4845.18 KB
S. No. Chapter Title of the Chapters Page Size (KB)
1 1 Introduction 1
173.73 KB
2 2 Review Of Literature 11
543.85 KB
  2.1 Genome Organization And Functions Of Genes Of Geminiviruses 11
  2.2 Replication Strategies Of Geminiviruses 15
  2.3 Genetic Recombination Among Begomoviruses 16
  2.4 Engineered Resistance To Plant Viruses 20
3 3 Materials And Methods 32
946.84 KB
  3.1 Cloning Of Clcuv Dna A Genes 32
  3.2 Plant Transformation 43
  3.3 Molecular Analysis Of Transgenic Plants 47
  3.4 Kanamycin Sensitivity Test Of Transgenic Tobacco Seeds 55
  3.5 Evaluation Fur Clcud Resistance In Containment 55
  3.6 Evaluation Of D 1 Antisense Resistance In Cotton Under Field Conditions 57
  3.7 Evaluation Of D 1 Antisense Resistance In Cotton Under Field Conditions 58
4 4 Results 60
2036.69 KB
  4.1 Cloning Of Clcuv Dna A Genes 60
  4.2 Plant Transformation 69
  4.3 Molecular Analysis Of Transgenic Tobacco And Cotton Plants 80
  4.4 Evaluation For Clcud Resistance Under Containment 104
  4.5 Mendelian Inheritance Of Transgenes In Resistant Lines 120
  4.6 Evaluation Of D] Antisense Resistance In Transgenic Cotton In Field Trials 121
  4.7 Analysis Of Resistance Mechanism In Transgenic Tobacco Sense Lines 124
5 5 Discussion 126
206.79 KB
6 6 References 139
929.09 KB
  6.1 Published Work