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Genome Sequencing May Help Avert Banana Armageddon

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Man in white lab coat holding bowl of bananas stands in laboratory.
Plant pathologist Ioannis Stergiopoulos says discovery of how three fungal diseases attack banana plants should be a “wake-up call” to the research community. (Gregory Urquiaga/澳门六合彩资料库 Davis)

Quick Summary

  • 3 fungal diseases target banana plants鈥 nutrients
  • Global banana crop is at risk of destruction
  • Discovery should help in developing hardier banana plants

Researchers at the University of California, Davis, and in the Netherlands have discovered how three fungal diseases have evolved into a lethal threat to the world鈥檚 bananas.

The discovery, reported in the online journal PLOS Genetics, better equips researchers to develop hardier, disease-resistant banana plants and more effective disease-prevention treatments.

鈥淲e have demonstrated that two of the three most serious banana fungal diseases have become more virulent by increasing their ability to manipulate the banana鈥檚 metabolic pathways and make use of its nutrients,鈥 said 澳门六合彩资料库 Davis plant pathologist Ioannis Stergiopoulos, who led the effort to sequence two of the fungal genomes.

鈥淭his parallel change in metabolism of the pathogen and the host plant has been overlooked until now and may represent a 鈥榤olecular fingerprint鈥 of the adaption process,鈥 he said. 鈥淚t is really a wake-up call to the research community to look at similar mechanisms between pathogens and their plant hosts.鈥

Bananas and the disease threat

The banana is one of the world鈥檚 top five staple foods. About 100 million tons of bananas are produced annually in nearly 120 countries. But the fruit suffers from an 鈥渋mage problem,鈥 giving consumers the appearance that it is and always will be readily available, said Stergiopoulos. It鈥檚 an image problem that he fears could prove fatal to the entire banana industry in the very near future.

In reality, the global banana industry could be wiped out in just five to 10 years by fast-advancing fungal diseases. And that would prove devastating to millions of small-scale farmers who depend on the fruit for food, fiber and income. Already, Sigatoka 鈥 a three-fungus disease complex 鈥 reduces banana yields by 40 percent.

Three diseases in one

The Sigatoka complex鈥檚 three fungal diseases 鈥 yellow Sigatoka (Pseudocercospora musae), eumusae leaf spot (Pseudocercospora eumusae) and black Sigatoka (Pseudocercospora figiensis) 鈥 emerged as destructive pathogens in just the last century. Eumusae leaf spot and black Sigatoka are now the most devastating, with black Sigatoka posing the greatest constraint to banana production worldwide. The constant threat of the disease requires farmers to make 50 fungicide applications to their banana crops each year to control the disease.

鈥淭hirty to 35 percent of banana production cost is in fungicide applications,鈥 Stergiopoulos said. 鈥淏ecause many farmers can鈥檛 afford the fungicide, they grow bananas of lesser quality, which bring them less income.鈥

And for those growers who can afford fungicide, the applications pose environmental and human-health risks.

To make matters worse, all commercial 鈥渄essert鈥 bananas 鈥 those most commonly found in grocery stores 鈥 are of the Cavendish variety.  And unlike a tomato or green bean, which are grown from seeds, bananas are grown from shoot cuttings.

鈥淭he Cavendish banana plants all originated from one plant and so as clones, they all have the same genotype 鈥 and that is a recipe for disaster,鈥 Stergiopoulos said, noting that a disease capable of killing one plant could kill them all.

Probing the genomes for solutions

Stergiopoulos and colleagues sequenced the genomes of eumusae leaf spot and black Sigatoka, comparing their findings with the previously sequenced yellow Sigatoka genome sequence.

They discovered that this complex of diseases has become lethal to banana plants not just by shutting down the plant鈥檚 immune system but also by adapting the metabolism of the fungi to match that of the host plants. As a result, the attacking fungi can produce enzymes that break down the plant鈥檚 cell walls. This allows the fungi to feed on the plant鈥檚 sugars and other carbohydrates.

鈥淣ow, for the first time, we know the genomic basis of virulence in these fungal diseases and the pattern by which these pathogens have evolved,鈥 Stergiopoulos said.

Collaborators and funding

Collaborating with Stergiopoulos were Ti-Cheng Chang and Anthony Salvucci of the 澳门六合彩资料库 Davis Department of Plant Pathology, and Pedro W. Crous of the CBS-KNAW Fungal Biodiversity Centre of the Royal Netherlands Academy of Arts and Sciences, in Utrecht, Netherlands. (Chang is now at St. Jude Children鈥檚 Research Hospital in Memphis, Tennessee.)

Financial support for the study was provided by 澳门六合彩资料库 Davis faculty startup funds. 

Media Resources

Ioannis Stergiopoulos, Plant Pathology, 530-400-9802, istergiopoulos@ucdavis.edu

Pat Bailey, News and Media Relations, 530-219-9640, pjbailey@ucdavis.edu

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