Your search keyword '"Heazlewood, Joshua L"' showing total 8 results

1. Structural and chemical characterization of hardwood from tree species with applications as bioenergy feedstocks.

Author

Cetinkol, Özgül Persil, Smith-Moritz, Andreia M, Cheng, Gang, Lao, Jeemeng, George, Anthe, Hong, Kunlun, Henry, Robert, Simmons, Blake A, Heazlewood, Joshua L, and Holmes, Bradley M

Subjects

Cell Wall, Acacia, Eucalyptus, Trees, Lignin, Monosaccharides, Polysaccharides, Chromatography, Ion Exchange, X-Ray Diffraction, Spectroscopy, Fourier Transform Infrared, Multivariate Analysis, Hydrolysis, Wood, Biofuels, General Science & Technology

Abstract

Eucalypt species are a group of flowering trees widely used in pulp production for paper manufacture. For several decades, the wood pulp industry has focused research and development efforts on improving yields, growth rates and pulp quality through breeding and the genetic improvement of key tree species. Recently, this focus has shifted from the production of high quality pulps to the investigation of the use of eucalypts as feedstocks for biofuel production. Here the structure and chemical composition of the heartwood and sapwood of Eucalyptus dunnii, E. globulus, E. pillularis, E. urophylla, an E. urophylla-E. grandis cross, Corymbia citriodora ssp. variegata, and Acacia mangium were compared using nuclear magnetic resonance spectroscopy (NMR), X-ray diffraction (XRD) and biochemical composition analysis. Some trends relating to these compositions were also identified by Fourier transform near infrared (FT-NIR) spectroscopy. These results will serve as a foundation for a more comprehensive database of wood properties that will help develop criteria for the selection of tree species for use as biorefinery feedstocks.

Published

2012

2. Golgi Enrichment and Proteomic Analysis of Developing Pinus radiata Xylem by Free-Flow Electrophoresis

Author

Parsons, Harriet T., primary, Weinberg, Cristina S., additional, Macdonald, Lucy J., additional, Adams, Paul D., additional, Petzold, Christopher J., additional, Strabala, Timothy J., additional, Wagner, Armin, additional, and Heazlewood, Joshua L., additional

Published

2013

3. An Integrative Approach to the Identification of Arabidopsis and Rice Genes Involved in Xylan and Secondary Wall Development

Author

Oikawa, Ai, primary, Joshi, Hiren J., additional, Rennie, Emilie A., additional, Ebert, Berit, additional, Manisseri, Chithra, additional, Heazlewood, Joshua L., additional, and Scheller, Henrik Vibe, additional

Published

2010

4. Photosystem II Function and Dynamics in Three Widely Used Arabidopsis thaliana Accessions.

Author

Lan Yin, Fristedt, Rikard, Herdean, Andrei, Solymosi, Katalin, Bertrand, Martine, Andersson, Mats X., Mamedov, Fikret, Vener, Alexander V., Schoefs, Benoît, Spetea, Cornelia, and Heazlewood, Joshua L.

Subjects

PHOTOSYSTEMS, ARABIDOPSIS thaliana, PHOTOSYNTHESIS, PHOSPHORYLATION, THYLAKOIDS, PLANT photoinhibition

Abstract

Columbia-0 (Col-0), Wassilewskija-4 (Ws-4), and Landsberg erecta-0 (Ler-0) are used as background lines for many public Arabidopsis mutant collections, and for investigation in laboratory conditions of plant processes, including photosynthesis and response to high-intensity light (HL). The photosystem II (PSII) complex is sensitive to HL and requires repair to sustain its function. PSII repair is a multistep process controlled by numerous factors, including protein phosphorylation and thylakoid membrane stacking. Here we have characterized the function and dynamics of PSII complex under growth-light and HL conditions. Ws-4 displayed 30% more thylakoid lipids per chlorophyll and 40% less chlorophyll per carotenoid than Col-0 and Ler-0. There were no large differences in thylakoid stacking, photoprotection and relative levels of photosynthetic complexes among the three accessions. An increased efficiency of PSII closure was found in Ws-4 following illumination with saturation flashes or continuous light. Phosphorylation of the PSII D1/D2 proteins was reduced by 50% in Ws-4 as compared to Col-0 and Ler-0. An increase in abundance of the responsible STN8 kinase in response to HL treatment was found in all three accessions, but Ws-4 displayed 50% lower levels than Col-0 and Ler-0. Despite this, the HL treatment caused in Ws-4 the lagest extent of PSII inactivation, disassembly, D1 protein degradation, and the largest decrease in the size of stacked thylakoids. The dilution of chlorophyll-protein complexes with additional lipids and carotenoids in Ws-4 may represent a mechanism to facilitate lateral protein traffic in the membrane, thus compensating for the lack of a full complement of STN8 kinase. Nevertheless, additional PSII damage occurs in Ws-4, which exceeds the D1 protein synthesis capacity, thus leading to enhanced photoinhibition. Our findings are valuable for selection of appropriate background line for PSII characterization in Arabidopsis mutants, and also provide the first insights into natural variation of PSII protein phosphorylation. [ABSTRACT FROM AUTHOR]

Published

2012

5. Protein Disulfide Isomerase-Like Protein 1-1 Controls Endosperm Development through Regulation of the Amount and Composition of Seed Proteins in Rice.

Author

Yeon Jeong Kim, Song Yion Yeu, Bong Soo Park, Hee-Jong Koh, Jong Tae Song, Hak Soo Seo, and Heazlewood, Joshua L.

Subjects

RICE proteins, PROTEIN disulfide isomerase, MOLECULAR chaperones, ENDOSPERM, SEED proteins, PROTEIN folding, PHYSIOLOGY

Abstract

Protein disulfide isomerase (PDI) is a chaperone protein involved in oxidative protein folding by acting as a catalyst and assisting folding in the endoplasmic reticulum (ER). A genome database search showed that rice contains 19 PDI-like genes. However, their functions are not clearly identified. This paper shows possible functions of rice PDI-like protein 1-1 (PDIL1-1) during seed development. Seeds of the T-DNA insertion PDIL1-1 mutant, PDIL1-1Δ, identified by genomic DNA PCR and western blot analysis, display a chalky phenotype and a thick aleurone layer. Protein content per seed was significantly lower and free sugar content higher in PDIL1-1Δ mutant seeds than in the wild type. Proteomic analysis of PDIL1-1Δ mutant seeds showed that PDIL1-1 is post-translationally regulated, and its loss causes accumulation of many types of seed proteins including glucose/starch metabolism- and ROS (reactive oxygen species) scavenging-related proteins. In addition, PDIL1-1 strongly interacts with the cysteine protease OsCP1. Our data indicate that the opaque phenotype of PDIL1-1Δ mutant seeds results from production of irregular starch granules and protein body through loss of regulatory activity for various proteins involved in the synthesis of seed components. [ABSTRACT FROM AUTHOR]

Published

2012

6. A Putative Gene sbe3-rs for Resistant Starch Mutated from SBE3 for Starch Branching Enzyme in Rice (Oryza sativa L.).

Author

Ruifang Yang, Chunlong Sun, Jianjiang Bai, Zhixiang Luo, Biao Shi, Jianming Zhang, Wengui Yan, Zhongze Piao, and Heazlewood, Joshua L.

Subjects

STARCH, COLON cancer, GENETICS, CULTIVARS, GENOMICS, RICE

Abstract

Foods high in resistant starch (RS) are beneficial to prevent various diseases including diabetes, colon cancers, diarrhea and chronic renal or hepatic diseases. Elevated RS in rice is important for public health since rice is a staple food for half of the world population. A japonica mutant 'Jiangtangdao 1' (RS = 11.67%) was crossed with an indica cultivar 'Miyang 23' (RS = 0.41%). The mutant sbe3-rs that explained 60.4% of RS variation was mapped between RM6611 and RM13366 on chromosome 2 (LOD = 36) using 178 F2 plants genotyped with 106 genome-wide polymorphic SSR markers. Using 656 plants from four F3:4 families, sbe3-rs was fine mapped to a 573.3 Kb region between InDel 2 and InDel 6 using one STS, five SSRs and seven InDel markers. SBE3 which codes for starch branching enzyme was identified as a candidate gene within the putative region. Nine pairs of primers covering 22 exons were designed to sequence genomic DNA of the wild type for SBE3 and the mutant for sbe3-rs comparatively. Sequence analysis identified a missense mutation site where Leu-599 of the wild was changed to Pro-599 of the mutant in the SBE3 coding region. Because the point mutation resulted in the loss of a restriction enzyme site, sbe3-rs was not digested by a CAPS marker for SpeI site while SBE3 was. Co-segregation of the digestion pattern with RS content among 178 F2 plants further supported sbe3-rs responsible for RS in rice. As a result, the CAPS marker could be used in marker-assisted breeding to develop rice cultivars with elevated RS which is otherwise difficult to accurately assess in crops. Transgenic technology should be employed for a definitive conclusion of the sbe3-rs. [ABSTRACT FROM AUTHOR]

Published

2012

7. Investigation of Glandular Trichome Proteins in Artemisia annua L. Using Comparative Proteomics.

Author

Ting Wu, Yejun Wang, Dianjing Guo, and Heazlewood, Joshua L.

Subjects

TRICHOMES, METABOLITES, MALARIA, ARTEMISININ, SESQUITERPENE lactones, PROTEOMICS, ELECTROPHORESIS

Abstract

Glandular secreting trichomes (GSTs) are called biofactories because they are active in synthesizing, storing and secreting various types of plant secondary metabolites. As the most effective drug against malaria, artemisinin, a sesquiterpene lactone is derived from GSTs of Artemisia annua. However, low artemisinin content (0.001%~1.54% of dry weight) has hindered its wide application. We investigate the GST-expressed proteins in Artemisia annua using a comparative proteomics approach, aiming for a better understanding of the trichome proteome and arteminisin metabolism. 2D- electrophoresis was employed to compare the protein profiles of GSTs and leaves. More than 700 spots were resolved for GSTs, of which ~93 non-redundant proteins were confidently identified by searching NCBI and Artemisia EST databases. Over 70% of these proteins were highly expressed in GTSs. Functional classification of these GSTs enriched proteins revealed that many of them participate in major plant metabolic processes such as electron transport, transcription and translation. [ABSTRACT FROM AUTHOR]

Published

2012

8. Golgi Enrichment and Proteomic Analysis of Developing Pinus radiata Xylem by Free-Flow Electrophoresis.

Author

Parsons, Harriet T., Weinberg, Cristina S., Macdonald, Lucy J., Adams, Paul D., Petzold, Christopher J., Strabala, Timothy J., Wagner, Armin, and Heazlewood, Joshua L.

Subjects

PROTEOMICS, PINUS radiata, XYLEM, ELECTROPHORESIS, PLANT cell walls, PLANT development, WOODY plants, PLANT species

Abstract

Our understanding of the contribution of Golgi proteins to cell wall and wood formation in any woody plant species is limited. Currently, little Golgi proteomics data exists for wood-forming tissues. In this study, we attempted to address this issue by generating and analyzing Golgi-enriched membrane preparations from developing xylem of compression wood from the conifer Pinus radiata. Developing xylem samples from 3-year-old pine trees were harvested for this purpose at a time of active growth and subjected to a combination of density centrifugation followed by free flow electrophoresis, a surface charge separation technique used in the enrichment of Golgi membranes. This combination of techniques was successful in achieving an approximately 200-fold increase in the activity of the Golgi marker galactan synthase and represents a significant improvement for proteomic analyses of the Golgi from conifers. A total of thirty known Golgi proteins were identified by mass spectrometry including glycosyltransferases from gene families involved in glucomannan and glucuronoxylan biosynthesis. The free flow electrophoresis fractions of enriched Golgi were highly abundant in structural proteins (actin and tubulin) indicating a role for the cytoskeleton during compression wood formation. The mass spectrometry proteomics data associated with this study have been deposited to the ProteomeXchange with identifier PXD000557. [ABSTRACT FROM AUTHOR]

Published

2013