Transgenic banana plants expressing small interfering RNAs targeted against viral replication initiation gene display high-level resistance to banana bunchy top virus infection

Shekhawat, Upendra K. Singh; Ganapathi, T. R.; Hadapad, Ashok B.

doi:10.1099/vir.0.041871-0

Cited by 102 publications

(46 citation statements)

References 36 publications

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“…The accessible gene pool available for GM is significantly broader than that available to conventional banana breeders and, as a result, genes for resistance to BBTV and BXW have already been identified [44][45][46][47]. Further, genes from M. balbisiana are available for use in genetic modification, as there is no possibility of transferring BSV genes [48].…”

Section: Conventional Breeding or Genetic Modificationmentioning

confidence: 99%

“…The majority of these studies have been reports from a glasshouse evaluation and therefore, it is difficult to determine whether they only represent experimental projects, or whether they are part of a program to progress to field trial, and ultimately, to general release. The most targeted traits have been pest and disease resistance, abiotic stress tolerance, and fruit ripening, and these have included resistance to BBTV using RNAi (RNA interference) [44,59], resistance to Fusarium wilt race 1 using anti-apoptosis genes [60], RNAi [61] or a defensin gene [62], resistance to nematodes using plant-derived or synthetic peptides [63], and the over-expression of a banana-derived WRKY transcription factor to alter abiotic responses [64]. These reports, in addition to a number of others, have used a range of banana genes, RNAi constructs derived from banana pathogens, or genes not derived from bananas.…”

Section: The Progress With Genetically Modified Bananasmentioning

confidence: 99%

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Modifying Bananas: From Transgenics to Organics?

et al. 2017

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Bananas are one of the top ten world food crops. Unlike most other major food crops, bananas are difficult to genetically improve. The challenge is that nearly all banana cultivars and landraces are triploids, with high levels of male and female infertility. There are a number of international conventional breeding programs and many of these are developing new cultivars. However, it is virtually impossible to backcross bananas, thus excluding the possibility of introgressing new traits into a current cultivar. The alternative strategy is to "modify" the cultivar itself. We have been developing the capacity to modify Cavendish bananas and other cultivars for both disease resistance and enhanced fruit quality. Initially, we were using transgenes; genes that were derived from species outside of the Musa or banana genus. However, we have recently incorporated two banana genes (cisgenes) into Cavendish; one to enhance the level of pro-vitamin A and the other to increase the resistance to Panama disease. Modified Cavendish with these cisgenes have been employed in a field trial. Almost certainly, the next advance will be to edit the Cavendish genome, to generate the desired traits. As these banana cultivars are essentially sterile, transgene flow and the outcrossing of modified genes into wild Musa species. are highly unlikely and virtually impossible in other triploid cultivars. Therefore, genetic changes in bananas may be compatible with organic farming.

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Section: Conventional Breeding or Genetic Modificationmentioning

confidence: 99%

Section: The Progress With Genetically Modified Bananasmentioning

confidence: 99%

Modifying Bananas: From Transgenics to Organics?

et al. 2017

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“…Two Indian research groups have claimed success. Shekhawat et al (2012) have published an account of tests that showed that transformed 'Rasthali' (AAB genome, syn. 'Silk') did not develop symptoms when exposed to aphids carrying BBTV.…”

Section: Recent Bbtv Resistant Banana Clone Development Through Rnai mentioning

confidence: 99%

Banana bunchy top disease (BBTD) symptom expression in banana and strategies for transgenic resistance: A review

Elayabalan

Subramaniam

Selvarajan

2015

Emir. J. Food Agric

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Bananas are one among the world's leading food crops after rice, wheat and maize. Banana cultivation is affected by various diseases. Among them, in globally banana bunchy top disease (BBTD) caused by the banana bunchy top virus (BBTV) and Fusarium wilt caused by the Fusarium oxysporum f.sp. cubense are the most serious diseases. BBTV is an isometric virus with a circular single stranded DNA (ssDNA) genome consisting of at least six components, BBTV DNA-1 to 6. The virus is transmitted by the banana aphid (Pentalonia nigronervosa). In this review paper, we are discussing the global status of BBTD, symptom expression in both vegetative and reproductive stage, resistant strategy and recent BBTV resistant banana clones development.

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“…Grand Nain, Virupakshi (Hill banana), Robusta, Nendran, Rasthali, Poovan, Ney Poovan, Monthan and Red Banana are severely affected by BBTD. There is no resistance gene source available in germplasm of bananas and plantains (Shekhawat et al, 2012). The BBTV affected plants show intermittent dark green dots, dash, streaks of variable length on leaf sheath, midrib, leaf veins and petioles of infected plants.…”

Section: Introductionmentioning

confidence: 99%

Biochemical Characterization of Compatible Plant Virus Interaction: A Case Study with Bunchy Top Virus-Banana Host-Pathosystem

Anuradha¹,

Selvarajan²,

Vasantha³

et al. 2015

Plant Pathology J.

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A B S T R A C TVirus infection can result in the alteration of physiological, biochemical and metabolic processes within plants leading to symptom development. Banana bunchy top virus (BBTV) is one of the most destructive viral diseases in Tropical Asia, Pacific Indian Oceania (PIO) regions and Africa leading to 100% yield loss in banana and plantains. Though molecular characterization and their diversity were studied in depth in recent years, information on physiological and biochemical changes during banana-BBTV interaction is still not convincingly explained. Therefore, the present investigation was conducted to find out the quantifiable changes in physiological and biochemical parameters such as proteins, pigment and carbohydrate content, phenolic compounds, polyphenol oxidase (PPO), peroxidase (POX), ascorbate peroxidase (APX), guaiacol peroxidase (GPX), catalase (CAT) and superoxide dismutase (SOD) activities in leaves of banana cultivars Grand Nain (AAA) and Virupakshi (AAB). The amount of carbohydrate contents, phenolic compounds, PPO, POX, APX, GPX, CAT were significantly higher in BBTV infected leaves of both the cultivars over the healthy, whereas total protein content, pigments and SOD activity showed an opposite trend. Overall the results suggest that BBTV infection induces significant changes in enzyme levels leading to irreversible symptom development. Further studies would lead to identification of biochemical markers for studying plant-virus compatible and incompatible interactions.

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Transgenic banana plants expressing small interfering RNAs targeted against viral replication initiation gene display high-level resistance to banana bunchy top virus infection

Cited by 102 publications

References 36 publications

Modifying Bananas: From Transgenics to Organics?

Modifying Bananas: From Transgenics to Organics?

Banana bunchy top disease (BBTD) symptom expression in banana and strategies for transgenic resistance: A review

Biochemical Characterization of Compatible Plant Virus Interaction: A Case Study with Bunchy Top Virus-Banana Host-Pathosystem

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