Search

Your search keyword '"Gaskins, Verneta L."' showing total 30 results
Start Over Author "Gaskins, Verneta L."
30 results on '"Gaskins, Verneta L."'

10. Blistering1 Modulates Penicillium expansum Virulence Via Vesicle-mediated Protein Secretion

Author

Jurick, Wayne M., primary, Peng, Hui, additional, Beard, Hunter S., additional, Garrett, Wesley M., additional, Lichtner, Franz J., additional, Luciano-Rosario, Dianiris, additional, Macarisin, Otilia, additional, Liu, Yingjian, additional, Peter, Kari A., additional, Gaskins, Verneta L., additional, Yang, Tianbao, additional, Mowery, Joseph, additional, Bauchan, Gary, additional, Keller, Nancy P., additional, and Cooper, Bret, additional

Published
2020
Full Text
View/download PDF

12. Whole-genome comparisons of Penicillium spp. reveals secondary metabolic gene clusters and candidate genes associated with fungal aggressiveness during apple fruit decay

Author

Wu, Guangxi, primary, Jurick II, Wayne M., additional, Lichtner, Franz J., additional, Peng, Hui, additional, Yin, Guohua, additional, Gaskins, Verneta L., additional, Yin, Yanbin, additional, Hua, Sui-Sheng, additional, Peter, Kari A., additional, and Bennett, Joan W., additional

Published
2019
Full Text
View/download PDF

13. Whole-genome comparisons of Penicillium spp. reveals secondary metabolic gene clusters and candidate genes associated with fungal aggressiveness during apple fruit decay

Author

Wu, Guangxi, primary, Jurick II, Wayne M, additional, Lichtner, Franz J, additional, Peng, Hui, additional, Yin, Guohua, additional, Gaskins, Verneta L, additional, Yin, Yanbin, additional, Hua, Sui-Sheng, additional, Peter, Kari A., additional, and Bennett, Joan W, additional

Published
2018
Full Text
View/download PDF

17. Blistering1 Modulates Penicillium expansumVirulence Via Vesicle-mediated Protein Secretion*

Author

Jurick, Wayne M., Peng, Hui, Beard, Hunter S., Garrett, Wesley M., Lichtner, Franz J., Luciano-Rosario, Dianiris, Macarisin, Otilia, Liu, Yingjian, Peter, Kari A., Gaskins, Verneta L., Yang, Tianbao, Mowery, Joseph, Bauchan, Gary, Keller, Nancy P., and Cooper, Bret

Abstract

A TDNA mutant, in the single copy Blistering1locus, was created in Penicillium expansum. The mutant showed reduced decay in apple fruit, undetectable levels of patulin, and blistered hyphae. Mass spectrometry of proteins in liquid medium and mycelia revealed that it failed to secrete degrative enzymes and ones involved in patulin synthesis. Quantitative mass spectrometry of mycelial proteins revealed altered cellular networks controlling protein processing. These data show that Blistering1affects internal and external protein processing involving vesicle-mediated transport.

Published
2020
Full Text
View/download PDF

18. Whole-genome comparisons of Penicillium spp. reveals secondary metabolic gene clusters and candidate genes associated with fungal aggressiveness during apple fruit decay.

Author

Guangxi Wu, Jurick II, Wayne M., Lichtner, Franz J., Hui Peng, Guohua Yin, Gaskins, Verneta L., Yin, Yanbin, Sui-Sheng Hua, Peter, Kari A., and Bennett, Joan W.

Subjects
COMPARATIVE genomics, FUNGAL genes, GENE clusters, APPLE blue mold, PENICILLIUM, AMINO acid sequence
Abstract

Blue mold is a postharvest rot of pomaceous fruits caused by Penicillium expansum and a number of other Penicillium species. The genome of the highly aggressive P. expansum strain R19 was re-sequenced and analyzed together with the genome of the less aggressive P. solitum strain RS1. Whole genome scale similarities and differences were examined. A phylogenetic analysis of P. expansum, P. solitum, and several closely related Penicillium species revealed that the two pathogens isolated from decayed apple with blue mold symptoms are not each other's closest relatives. Among a total of 10,560 and 10,672 protein coding sequences respectively, a comparative genomics analysis revealed 41 genes in P. expansum R19 and 43 genes in P. solitum RS1 that are unique to these two species. These genes may be associated with pome fruit-fungal interactions, subsequent decay processes, and mycotoxin accumulation. An intact patulin gene cluster consisting of 15 biosynthetic genes was identified in the patulin producing P. expansum strain R19, while only a remnant, seven-gene cluster was identified in the patulin-deficient P. solitum strain. However, P. solitum contained a large number of additional secondary metabolite gene clusters, indicating that this species has the potential capacity to produce an array of known as well as not-yet-identified products of possible toxicological or biotechnological interest. [ABSTRACT FROM AUTHOR]

Published
2019
Full Text
View/download PDF

24. Purification and Biochemical Characterization of Polygalacturonase Produced by Penicillium expansum During Postharvest Decay of 'Anjou' Pear

Author

Jurick, Wayne M., II, Jurick, Wayne M., II, Vico, Ivana, Gaskins, Verneta L., Garrett, Wesley M., Whitaker, Bruce D., Janisiewicz, Wojciech, Conway, William S., Jurick, Wayne M., II, Jurick, Wayne M., II, Vico, Ivana, Gaskins, Verneta L., Garrett, Wesley M., Whitaker, Bruce D., Janisiewicz, Wojciech, and Conway, William S.

Abstract

A polygalacturonase (PG) was extracted and purified from decayed tissue of 'Anjou' pear fruit inoculated with Penicillium expansum. Ammonium sulfate precipitation, gel filtration, and cation exchange chromatography were used to purify the enzyme. Both chromatographic methods revealed a single peak corresponding to PG activity. PG enzyme activity from healthy and wounded pear tissue was undetectable, which supports the claim that the purified PG is of fungal origin. The purified enzyme had a molecular mass of 41 kDa and a pI of 7.8. Activity of the PG was not associated with a glycosylated protein. The enzyme was active over a broad pH range from 3 to 6, with optimal activity at 4.5 in sodium citrate and sodium acetate buffers. The optimal temperature for activity was 37 degrees C but the enzyme was also active at 0, 5, 10, 20, and 50 degrees C. Thin-layer chromatographic analysis of PG hydrolysis products showed that the enzyme exhibits endo- and exo-activity. The purified enzyme macerated tissue in vitro causing approximate to 30% reduction in mass of pear plugs compared with approximate to 17% reduction for apple. Additionally, it produced 1.5-fold more soluble polyuronides on pear than apple tissue. This work shows for the first time the production of a PG by P. expansum during postharvest decay of pear fruit is different from the previously described PG produced in decayed apple fruit by the same pathogen.

Published
2010

28. Carbon, nitrogen and pH regulate the production and activity of a polygalacturonase isozyme produced by Penicillium expansum.

Author

Jurick, Wayne M., Vico, Ivana, Gaskins, Verneta L., Peter, Kari A., Park, Eunhee, Janisiewicz, Wojciech J., and Conway, William S.

Subjects
POLYGALACTURONASE, APPLE blue mold, MYCELIUM, POLYURONIDES, MICROBIAL virulence, GLUTAMINE, GLUTAMIC acid
Abstract

The influence of carbon, nitrogen and pH on polygalacturonase (PG) activity produced by Penicillium expansum were investigated. P. expansum mycelial growth was greatest on lyophilized lyophilised fruit tissue and the highest PG activity occurred in apple pectin medium. Nitrogen source influenced PG activity and was highest with ammonia while the greatest mycelial mass was supported by glutamate or glutamine. PG activity and mycelial mass peaked 5 five days after inoculation as polyuronide content decreased and the pH and ammonium levels increased in apple pectin medium. A single active PG isozyme with an isoelectric point of ∼7.6 was produced in apple pectin medium and a partial cDNA clone was obtained that was most homologous to the pggII gene from Penicillium. griseoroseum. The results from this study indicate that P. expansum can modulate the activity of PG in response to nutrient sources and ambient pH through signalling pathways that modulate nutrient acquisition, uptake and metabolism. [ABSTRACT FROM PUBLISHER]

Published
2012
Full Text
View/download PDF

29. Penicillium solitumproduces a polygalacturonase isozyme in decayed Anjou pear fruit capable of macerating host tissue in vitro

Author

Jurick, Wayne M., Vico, Ivana, Gaskins, Verneta L., Whitaker, Bruce D., Garrett, Wesley M., Janisiewicz, Wojciech J., and Conway, William S.

Abstract

A polygalacturonase (PG) isozyme was isolated from Penicillium solitum-decayed Anjou pear fruit and purified to homogeneity with a multistep process. Both gel filtration and cation exchange chromatography revealed a single PG activity peak, and analysis of the purified protein showed a single band with a molecular mass of 43 kDa, which is of fungal origin. The purified enzyme was active from pH 3.5–6, with an optimum at pH 4.5. PG activity was detectable 0–70 C with 50 C maximum. The purified isozyme was inhibited by the divalent cations Ca2+, Mg2+, Mn2+and Fe2+and analysis of enzymatic hydrolysis products revealed polygalacturonic acid monomers and oligomers. The purified enzyme has an isoelectric point of 5.3 and is not associated with a glycosylated protein. The PG isozyme macerated fruit tissue plugs in vitro and produced ~1.2-fold more soluble polyuronides from pear than from apple tissue, which further substantiates the role of PG in postharvest decay. Data from this study show for the first time that the purified PG produced in decayed Anjou pear by P. solitum, a weakly virulent fungus, is different from that PG produced by the same fungus in decayed apple.

Published
2012
Full Text
View/download PDF

30. Would You Like Wood or Plastic? Bin Material, Sanitation Treatments, and Bin Inoculum Levels Impact Blue Mold Decay of Stored Apple Fruit.

Author

Jurick WM 2nd, Choi MW, Gaskins VL, Peter KA, and Cox KD

Subjects
Fruit, Wood, Steam, Sanitation, Fungi, Malus, Refuse Disposal
Abstract

Blue mold, caused primarily by Penicillium expansum , is a significant postharvest disease of apples. It not only causes economic losses but also produces mycotoxins that contaminate processed fruit products, which contributes to food waste and loss. Previous research has shown that packing and storage bins harbor Penicillium spores and that steam and hot water efficiently reduce spore inoculum levels. However, studies using wooden and plastic bins regarding their ability to harbor spores, the effect of chemical sanitation treatments on spore levels, and the impact of rinsate from treated bins on apple fruit decay have not been investigated for the Mid-Atlantic area (Okull et al. 2006; Rosenberger 2009). We evaluated different sanitation treatments (chemical and physical) to reduce P. expansum inoculum levels on wooden and plastic bins. We determined that wooden bins bound P. expansum spores four orders of magnitude higher than plastic. When both bin types were treated with steam (wooden) or sterile hot water (plastic), Thyme Guard, or Academy, all treatments resulted in significantly ( P < 0.05) lower spore levels compared to untreated controls. Although, plastic bins retained lower numbers of spores after inoculation with contaminated spore rinsate and required much higher concentrations of P. expansum spores in rinsate to retain spores at levels that would lead to decay on apple fruit. Overall, we demonstrated that plastic bins retain fewer spores than wooden bins and that both can be sanitized by various physical or chemical treatments. We envision that our findings will be applicable in the future as the techniques implemented in this study were used to investigate industry-relevant questions. Our goal is that the research techniques and findings become feasible with advancements in technology and/or accompany other shifts in existing processes in commercial pome fruit packing and storage facilities.

Published
2023
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results