Towards better insect management strategy: restriction of insecticidal gene expression to biting sites in transgenic cotton

Anayol, Emine; Bakhsh, Allah; Karakoç, Ömer Cem; Onarici, Selma; Köm, Deniz; Aasım, Muhammad; Özcan, Sancar Fatih; Barpete, Surendra; Khabbazi, Saber Delpasand; Onol, Burak; Sancak, Cengiz; Khawar, Khalid Mahmood; Ünlü, Levent; Özcan, Sebahattin

doi:10.1007/s11816-016-0388-5

Cited by 17 publications

(8 citation statements)

References 47 publications

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“…In our study, only plants positive for introduced gene(s) were marked and subjected to further studies. Real-time quantitative PCR has emerged as a standard molecular technique to analyze relative expression of targeted genes (Maqbool et al, 2010;Rao et al, 2011;Anayol et al, 2016). In the present study, GUS and PCR positive transformants of Basma and Nail were subjected to qPCR and we observed that transgenic plants had increased expression of cry1Ac.…”

Section: Discussionmentioning

confidence: 66%

“…The expression level of cry1Ac protein varied among different transgenic plants of both cultivars ( Figure 6). The variability in cry1Ac expression in transgenic crops has previously been reported (Olsen at al., 2005;Puspito et al, 2015;Anayol et al, 2016) and has been attributed to the regulatory nature of 35S promoter (Sunilkumar et al, 2012). The cry toxin amount varied among transgenic plants in T0 and T1 generations (Figures 6 and 10).…”

Section: Discussionmentioning

confidence: 99%

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Development of transgenic tobacco lines with pyramided insect resistant genes

Bakhsh¹,

Dinç²,

Hussain³

et al. 2018

Turk J Biol

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Insect pests are among the major constraints rendering drastic decreases in crop yield. The expression of stacked insecticidal genes in crops can lead to resistance durability and can delay the development of resistance in target insect pests. The present study was designed to introduce an insect resistance trait in locally cultivated Turkish tobacco cultivars (Basma and Nail) with pyramided insecticidal genes. Agrobacterium strain LBA4404 harboring plasmid pKGH4 with cry1Ac and cry2A genes under the control of 35S promoter was used to infect leaf discs of both cultivars; plasmid also contained uidA within the T-DNA region for earlier screening of putative transformants. The overall transformation efficiency was calculated as 30.7% and 18.8% in Basma and Nail, respectively. PCR results confirmed the integration of cry1Ac, cry2A, uidA, and nptII genes in 40 plants of Basma and 16 plants of Nail. ELISA results showed variation in expression of cry1Ac protein among transgenic plants varying from 0.017 to 0.607 µg/g of fresh tissue. Bioassay results with potato tuber moth (Phthorimea operculella Zeller) showed significant mortality of the targeted pest on primary transformants. Furthermore, T1 transgenic progeny exhibited the inheritance of T-DNA in Mendelian as well as non-Mendelian fashion. The results revealed that lines can serve as a source of germplasm in tobacco breeding programs.

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Section: Discussionmentioning

confidence: 66%

Section: Discussionmentioning

confidence: 99%

Development of transgenic tobacco lines with pyramided insect resistant genes

Bakhsh¹,

Dinç²,

Hussain³

et al. 2018

Turk J Biol

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“…35S CaMV is widely used promoter in commercialized transgenic crops as well as for other research purposes. Being constitutive in nature, 35S promoter induces expression of foreign gene all tissues types during plant growth and development (Mi et al 2015;Anayol et al 2016). In the present study, cry1Ac expression was also studied under the control of wound specific AoPRI promoter.…”

Section: Discussionmentioning

confidence: 82%

“…The construction of plant expression cassette has been described in Anayol et al (2016) in detail and represented as Fig. 1.…”

Section: Description Of Expression Constructsmentioning

confidence: 99%

An effective pest management approach in potato to combat insect pests and herbicide

Amiri

Bakhsh

2019

3 Biotech

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Insect pests and weeds incur significant yield losses to potato crop worldwide. The increasing crop losses provide impetus for the development of pest management strategy that is equally effective against insect pests and weeds. In the present study, a molecular approach was used to develop transgenic potato lines (cv. Marabel) effective against Colorado potato beetle (Leptinotarsa decemlineata Say), potato tuber moth (Phthorimaea operculella Z.) and Basta ® application. Agrobacterium tumefaciens strain EHA105 harboring binary vector pTF101.1 containing cry1Ac gene under the control of 35S and AoPR1 promoters was used to infect leaf discs and internodal explants. Phosphinothrincin was used at optimal concentration (2 mg/l) for the screening of primary transformants. The standard molecular assays exhibited gene integration and expression in putative transgenics. Real-time data revealed up to ninefold high cry1Ac transcript levels, whereas cry protein amount was estimated to 0.4 ppm in primary transformants. The analysis of first tuber progeny showed proper integration cry1Ac and bar genes in subsequent progeny. The transgenic plants also showed tolerance to the application of Basta ®. The efficacy of cry1Ac was evaluated by allowing larvae of Colorado potato beetle (CPB) and potato tuber moth (PTM) to feed on transgenic plants. Results revealed appreciable mortality levels of different larval instars of CPB (20-100%) and PTM (50-100%). Overall, our results exhibit the potential of these transgenic lines to be used in a potato breeding program with the purpose to control insect pests and weeds.

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“…The use of tissue specific or light inducible promoter is being considered a more promising strategy in order to address public concerns on biosafety of transgenic crops (Anayol et al, 2016). The use of light inducible promoter restricted cry1Ab expression to aerial parts of transgenic potatoes and resulted in enhanced resistance against PTM.…”

Section: Insect Resistant Potatoesmentioning

confidence: 99%

GENETIC APPROACHES FOR ENGINEERING BIOTIC STRESS RESISTANCE IN POTATO (Solanum tuberosum L.)

Bakhsh¹,

Dangol²,

Naeem³

et al. 2020

THE JAPS

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Potato is one of the most important food crops in terms of annual production and food security worldwide. The crop is affected by several types of biotic stresses, e.g. insects, viruses, fungus, nematodes and weeds, which are the prominent limiting factors for its production. The conventional breeding methods in potato have been associated with limitations; none of the present day commercial cultivar has built-in resistance against biotic stresses. There is strong need for the development of new resistant potato varieties to cope against biotic stresses using non-classical approaches in combination with classical methods. The scientific literature suggests the contribution of modern biotechnological techniques for the development of transgenic potato lines resistant against insects and diseases. The present comprehensive review describes different genetic engineering approaches for the development of transgenic potatoes resistant to insects, weeds, nematodes, fungus and viruses by fellow researchers worldwide. It also gives an insight into modern technologies, e.g. RNAi and CRISPR-Cas9, which have emerged recently and can be implemented in the development of biotic stress resistant potato cultivars.

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Towards better insect management strategy: restriction of insecticidal gene expression to biting sites in transgenic cotton

Cited by 17 publications

References 47 publications

Development of transgenic tobacco lines with pyramided insect resistant genes

Development of transgenic tobacco lines with pyramided insect resistant genes

An effective pest management approach in potato to combat insect pests and herbicide

GENETIC APPROACHES FOR ENGINEERING BIOTIC STRESS RESISTANCE IN POTATO (Solanum tuberosum L.)

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