scholarly journals Cytokinin accumulation and an altered ethylene response mediate the pleiotropic phenotype of the pea nodulation mutant R50 (sym16)

2005 ◽  
Vol 83 (8) ◽  
pp. 989-1000 ◽  
Author(s):  
Brett J Ferguson ◽  
Ericka M Wiebe ◽  
R J Neil Emery ◽  
Frédérique C Guinel
Keyword(s):  
Lateral Roots ◽  
Shoot Elongation ◽  
Mass Spectrometry Analysis ◽  
Ethylene Inhibitors ◽  
Spectrometry Analysis ◽  
Ethylene Response ◽  
Ethylene Inhibitor ◽  
Liquid Chromatography Tandem Mass ◽  
Morphological Differences ◽  
Exogenous Ethylene

R50 (sym16), a pleiotropic mutant of Pisum sativum L., is short, has thickened internodes and roots, and has a reduced number of lateral roots and nodules. Its low nodule phenotype can be restored with the application of ethylene inhibitors; furthermore, it can be mimicked by applying cytokinins (CKs) to the roots of the parent line ‘Sparkle’. Here, we report on the etiolation phenotypes of R50 and ‘Sparkle’, and on the interactive roles of ethylene and CKs in these lines. R50 displayed an altered etiolation phenotype, as it was shorter and thicker, and had more developed leaves than dark-grown ‘Sparkle’. Shoot morphological differences induced by exogenous ethylene or CKs were found to be less severe for R50. Ethylene inhibitor application induced root and shoot elongation and encouraged apical hook opening in both etiolated lines. Liquid chromatography - tandem mass spectrometry analysis indicated that CK concentrations in R50 were higher than in ‘Sparkle’, particularly in mature shoots where the levels were maintained at elevated concentrations. These differences indicate a reduction in the CK catabolism of R50. The accumulation of CKs can be directly related to several traits of R50, with the reduced number of nodules and altered shoot ethylene response being likely indirect effects. Key words: cytokinin, de-etiolation, ethylene, etiolation, pea, nodulation mutant.

Coronatin-2 from the entomopathogenic fungus Conidiobolus coronatus kills Galleria mellonella larvae and incapacitates hemocytes

2016 ◽  
Vol 107 (1) ◽  
pp. 66-76 ◽  
Author(s):  
M.I. Boguś ◽  
W. Wieloch ◽  
M. Ligęza-Żuber
Keyword(s):  
Entomopathogenic Fungus ◽  
Galleria Mellonella ◽  
Elongation Factor ◽  
Peptide Sequence ◽  
Mass Spectrometry Analysis ◽  
Sequence Coverage ◽  
Spectrometry Analysis ◽  
Conidiobolus Coronatus ◽  
Liquid Chromatography Tandem Mass

AbstractCoronatin-2, a 14.5 kDa protein, was isolated from culture filtrates of the entomopathogenic fungus Conidiobolus coronatus (Costantin) Batko (Entomophthoramycota: Entomophthorales). After LC–MS/MS (liquid chromatography tandem mass spectrometry) analysis of the tryptic peptide digest of coronatin-2 and a mass spectra database search no orthologs of this protein could be found in fungi. The highest homology was observed to the partial translation elongation factor 1a from Sphaerosporium equinum (protein sequence coverage, 21%), with only one peptide sequence, suggesting that coronatin-2 is a novel fungal protein that has not yet been described. In contrast to coronatin-1, an insecticidal 36 kDa protein, which shows both elastolytic and chitinolytic activity, coronatin-2 showed no enzymatic activity. Addition of coronatin-2 into cultures of hemocytes taken from larvae of Galleria mellonella Linnaeus (Lepidoptera: Pyralidae), resulted in progressive disintegration of nets formed by granulocytes and plasmatocytes due to rapid degranulation of granulocytes, extensive vacuolization of plasmatocytes accompanied by cytoplasm expulsion, and cell disintegration. Spherulocytes remained intact, while oenocytes rapidly disintegrated. Coronatin-2 produced 80% mortality when injected into G. mellonella at 5 µg larva−1. Further study is warranted to determine the relevance of the acute toxicity of coronatin-2 and its effects on hemocytes in vitro to virulence of C. coronatus against its hosts.

Enhancing proteasomal processing improves survival for a peptide vaccine used to treat glioblastoma

2021 ◽  
Vol 13 (598) ◽  
pp. eaax4100
Author(s):  
Mario Fidanza ◽  
Puja Gupta ◽  
Anin Sayana ◽  
Varun Shanker ◽  
Svenja-Maria Pahlke ◽  
...  
Keyword(s):  
Immune Response ◽  
Mhc Class I ◽  
Peptide Vaccine ◽  
Tumor Model ◽  
Class I ◽  
Mass Spectrometry Analysis ◽  
Spectrometry Analysis ◽  
Tandem Mass Spectrometry Analysis ◽  
Liquid Chromatography Tandem Mass ◽  
Anticancer Vaccine

Despite its essential role in antigen presentation, enhancing proteasomal processing is an unexploited strategy for improving vaccines. pepVIII, an anticancer vaccine targeting EGFRvIII, has been tested in several trials for glioblastoma. We examined 20 peptides in silico and experimentally, which showed that a tyrosine substitution (Y6-pepVIII) maximizes proteasome cleavage and survival in a subcutaneous tumor model in mice. In an intracranial glioma model, Y6-pepVIII showed a 62 and 31% improvement in median survival compared to control animals and pepVIII-vaccinated mice. Y6-pepVIII vaccination altered tumor-infiltrating lymphocyte subsets and expression of PD-1 on intratumoral T cells. Combination with anti–PD-1 therapy cured 45% of the Y6-pepVIII–vaccinated mice but was ineffective for pepVIII-treated mice. Liquid chromatography–tandem mass spectrometry analysis of proteasome-digested pepVIII and Y6-pepVIII revealed that most fragments were similar but more abundant in Y6-pepVIII digests and 77% resulted from proteasome-catalyzed peptide splicing (PCPS). We identified 10 peptides that bound human and murine MHC class I. Nine were PCPS products and only one peptide was colinear with EGFRvIII, indicating that PCPS fragments may be a component of MHC class I recognition. Despite not being colinear with EGFRvIII, two of three PCPS products tested were capable of increasing survival when administered independently as vaccines. We hypothesize that the immune response to a vaccine represents the collective contribution from multiple PCPS and linear products. Our work suggests a strategy to increase proteasomal processing of a vaccine that results in an augmented immune response and enhanced survival in mice.

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