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Rabidopsis IRX9/IRX9-L and IRX14/IRX14-L pairs of glycosyltransferase genes reveals important contributions to biosynthesis of the hemicellulose glucuronoxylan. Plant Physiol 2010, 153:542?54. forty. Brown DM, Goubet F, Vicky WWA, Goodacre R, Stephens E, Dupree P, Turner SR: Comparison of 5 xylan synthesis mutants reveals new perception in to the mechanisms of xylan synthesis. Plant J 2007, fifty two:1154?168. 41. Lee C, Zhong R, Ye ZH: Arabidopsis relatives GT43 associates are xylan xylosyltransferases necessary with the elongation of the xylan spine. Plant Cell Physiol 2012, 53:one hundred thirty five?43. 42. Kong YZ, Zhou GK, Avci U, Gu XG, Jones C, Yin YB, Xu Y, Hahn MG: Two poplar glycosyltransferase genes, PdGATL1.1 And PdGATL1.two, are functional orthologs to PARVUS/AtGATL1 in Arabidopsis. Mol Plant 2009, two:1040?050. 43. K l L, Krogh A, Sonnhammer ELL: A put together transmembrane topology and signal peptide prediction technique. J Mol Biol 2004, 338:1027?036. 44. K l L, Krogh A, Sonnhammer ELL: Advantages of merged transmembrane topology and signal peptide prediction - the phobius website server. Nucleic Acids Res 2007, 35:W429 432. forty five. Nilsson A, Olsson T, Ulfsted M, Thelander M, Ronne H: Two novel varieties of hexokinases within the moss physcomitrella patens. BMC Plant Biol 2011, eleven:32. 46. Saitou N, Nei M: The neighbor-joining technique: a whole new system for reconstructing phylogenetic trees. Mol Biol Evol 1987, 4:406?25. 47. Popper ZA: Evolution and variety of eco-friendly plant mobile walls. Existing Feeling Plant Biol 2008, 11:286?92. 48. Iwai H, Masaoka N, Ishii T, Satoh S: A pectin glucuronyltransferase gene is vital for intercellular attachment inside the plant meristem. Proc Nat Acad Sci United states 2002, 99:16319?6324. forty nine. Scheller HV, Ulvskov P: Hemicelluloses. Ann Rev Plant Biol 2010, sixty one:263?89. fifty. Earley KW, Haag JR, Pontes O, Opper K, Juehne T, Tune KM, Pikaard CS: Gateway-compatible vectors for plant purposeful genomics and proteomics. Plant J 2006, forty five:616?29. fifty one. Clough SJ, Bent AF: Floral dip: a simplified method for agrobacteriummediated transformation of Arabidopsis thaliana. Plant J 1998, 16:735?43. fifty two. Cove D: The moss physcomitrella patens. Ann Rev Genetics 2005, 39:339?fifty eight. 53. Schaefer D, Zryd JP, Knight CD, Cove DJ: Stable transformation from the moss physcomitrella patens. Mol Gen Genet 1991, 226:418?24. fifty four. Eklund DM, Thelander M, Landberg K, Staldal V, Nilsson A, Johansson M, Valsecchi PubMed ID:https://www.ncbi.nlm.nih.gov/pubmed/15810806 I, Pederson Era, Kowalczyk M, Ljung K, Ronne H, Sundberg E: Homologues in the Arabidopsis thaliana SHI/STY/LRP1 genes regulate auxin biosynthesis and impact growth and enhancement inside the moss physcomitrella patens. Growth 2010, 137:1275?284. fifty five. Sweely CC, Bentley R, Makita M, Wells WW: Gas-liquid chromatography of trimethylsilyl derivatives of sugars and relevant substances. J American Chem Soc 1963, eighty five:2497?507. 56. Englyst HN, Cummings JH: Simpified technique to the measurement of total non-starch polysaccharides by gas- liquid-chromatography of constituent sugars as alditol acetates. Analyst 1984, 109:937?42. 57. Harholt J, Jensen JK, Sorensen SO, Orfila C, Pauly M, Scheller HV: ARABINAN DEFICIENT one can be a putative arabinosyltransferase included in biosynthesis of pectic arabinan in Arabidopsis.

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−	~~Lans constructions, techniques~~ and	+	Rabidopsis IRX9/IRX9-L and IRX14/IRX14-L pairs of glycosyltransferase genes reveals important contributions to biosynthesis of the hemicellulose glucuronoxylan. Plant Physiol 2010, 153:542?54. forty. Brown DM, Goubet F, Vicky WWA, Goodacre R, Stephens E, Dupree P, Turner SR: Comparison of 5 xylan synthesis mutants reveals new perception in to the mechanisms of xylan synthesis. Plant J 2007, fifty two:1154?168. 41. Lee C, Zhong R, Ye ZH: Arabidopsis relatives GT43 associates are xylan xylosyltransferases necessary with the elongation of the xylan spine. Plant Cell Physiol 2012, 53:one hundred thirty five?43. 42. Kong YZ, Zhou GK, Avci U, Gu XG, Jones C, Yin YB, Xu Y, Hahn MG: Two poplar glycosyltransferase genes, PdGATL1.1 And PdGATL1.two, are functional orthologs to PARVUS/AtGATL1 in Arabidopsis. Mol Plant 2009, two:1040?050. 43. K l L, Krogh A, Sonnhammer ELL: A put together transmembrane topology and signal peptide prediction technique. J Mol Biol 2004, 338:1027?036. 44. K l L, Krogh A, Sonnhammer ELL: Advantages of merged transmembrane topology and signal peptide prediction - the phobius website server. Nucleic Acids Res 2007, 35:W429 432. forty five. Nilsson A, Olsson T, Ulfsted M, Thelander M, Ronne H: Two novel varieties of hexokinases within the moss physcomitrella patens. BMC Plant Biol 2011, eleven:32. 46. Saitou N, Nei M: The neighbor-joining technique: a whole new system for reconstructing phylogenetic trees. Mol Biol Evol 1987, 4:406?25. 47. Popper ZA: Evolution and variety of eco-friendly plant mobile walls. Existing Feeling Plant Biol 2008, 11:286?92. 48. Iwai H, Masaoka N, Ishii T, Satoh S: A pectin glucuronyltransferase gene is vital for intercellular attachment inside the plant meristem. Proc Nat Acad Sci United states 2002, 99:16319?6324. forty nine. Scheller HV, Ulvskov P: Hemicelluloses. Ann Rev Plant Biol 2010, sixty one:263?89. fifty. Earley KW, Haag JR, Pontes O, Opper K, Juehne T, Tune KM, Pikaard CS: Gateway-compatible vectors for plant purposeful genomics and proteomics. Plant J 2006, forty five:616?29. fifty one. Clough SJ, Bent AF: Floral dip: a simplified method for agrobacteriummediated transformation of Arabidopsis thaliana. Plant J 1998, 16:735?43. fifty two. Cove D: The moss physcomitrella patens. Ann Rev Genetics 2005, 39:339?fifty eight. 53. Schaefer D, Zryd JP, Knight CD, Cove DJ: Stable transformation from the moss physcomitrella patens. Mol Gen Genet 1991, 226:418?24. fifty four. Eklund DM, Thelander M, Landberg K, Staldal V, Nilsson A, Johansson M, Valsecchi [https://www.ncbi.nlm.nih.gov/pubmed/15810806 PubMed ID:https://www.ncbi.nlm.nih.gov/pubmed/15810806] I, Pederson Era, Kowalczyk M, Ljung K, Ronne H, Sundberg E: Homologues in the Arabidopsis thaliana SHI/STY/LRP1 genes regulate auxin biosynthesis and impact growth and enhancement inside the moss physcomitrella patens. Growth 2010, 137:1275?284. fifty five. Sweely CC, Bentley R, Makita M, Wells WW: Gas-liquid chromatography of trimethylsilyl derivatives of sugars and relevant substances. J American Chem Soc 1963, eighty five:2497?507. 56. Englyst HN, Cummings JH: Simpified technique to the measurement of total non-starch polysaccharides by gas- liquid-chromatography of constituent sugars as alditol acetates. Analyst 1984, 109:937?42. 57. Harholt J, Jensen JK, Sorensen SO, Orfila C, Pauly M, Scheller HV: ARABINAN DEFICIENT one can be a putative arabinosyltransferase included in biosynthesis of pectic arabinan in Arabidopsis.
−	~~Lans buildings, techniques and properties~~. ~~Macromol Fast Comm 2000~~, 21:542?56. 24. ~~Shimizu K~~, ~~Ishihara M~~, ~~Ishihara T~~: ~~Hemicellulases~~ of ~~brown rotting fungus tyromyces palustris. II. The oligosaccharides within~~ the ~~hydrolysate~~ of ~~a hardwood~~ xylan ~~with the intracellular xylanase~~. ~~Mokuzai Gakkaishi (~~J ~~Japan Wooden Res Soc) 1976~~, 22:~~618~~?25. ~~twenty five~~. ~~Johansson MH~~, ~~Samuelson O~~: ~~Lessening end groups in birch~~ xylan ~~as well as their alkaline-degradation~~. ~~Wood Sci Tech 1977~~, 11:~~251~~?~~sixty three~~. 26. ~~Aspinall GO~~: ~~Chemistry of cell wall polysaccharides~~. ~~In the biochemistry of vegetation~~: ~~a comprehensive treatise~~. ~~Vol~~. ~~third edition~~. ~~Edited by Stumpf PK~~, ~~Conn EE. Ny: Tutorial Press; 1990~~:~~473~~?00. 27. ~~Aspinall GO~~: ~~Chemistry~~ of ~~mobile wall polysaccharides~~. ~~In Biochemistry of vegetation. An extensive treatise. Vol. third edition. Edited by Stumpf CPK~~, ~~Conn EE. The big apple: Academic Press; 1980~~:~~473?00~~. 28. ~~Andersson SI~~, ~~Samuelson O~~, ~~Ishihara~~ M, ~~Shimizu K~~: ~~Composition~~ of ~~[https~~:~~//www~~.~~ncbi~~.~~nlm.nih.gov/pubmed/15853230 PubMed ID~~:~~https~~:~~//www~~.~~ncbi~~.~~nlm~~.~~nih.gov/pubmed/15853230] the decreasing end~~-~~groups in spruce xylan~~. ~~Carbohydrate Res 1983~~, ~~111~~:~~283~~?88. 29. ~~Zhong RQ~~, ~~Pe MJ~~, ~~Zhou GK~~, ~~Nairn CJ, Wood-Jones~~ A~~, Richardson EA, Morrison WH, Darvill AG, York WS, Ye ZH: Arabidopsis fragile fiber8, which encodes a putative~~ glucuronyltransferase, is ~~important~~ for ~~usual secondary wall synthesis~~. ~~Plant Cell 2005~~, ~~seventeen~~:~~3390~~?~~408~~. 30. ~~Lee CH~~, ~~O'Neill MA, Tsumuraya Y, Darvill AG, Ye ZH~~: ~~The irregular xylem9 mutant is deficient in xylan xylosyltransferase action~~. Plant ~~Mobile Physiol 2007~~, 48:~~1624~~?~~634~~. 31. ~~Pe MJ~~, ~~Zhong R~~, ~~Zhou GK~~, ~~Richardson EA~~, ~~O'Neill MA~~, ~~Darvill AG~~, ~~York WS~~, ~~Ye ZH~~: ~~Arabidopsis irregular xylem8 and irregular xylem9~~: ~~implications~~ for ~~the complexity~~ of ~~glucuronoxylan biosynthesis~~. Plant ~~Mobile 2007~~, 19:~~549~~?63. 32. ~~Persson S~~, ~~Caffall KH~~, ~~Freshour G~~, ~~Hilley MT~~, ~~Bauer S~~, ~~Poindexter P~~, ~~Hahn MG~~, ~~Mohnen D~~, [https://www.ncbi.nlm.nih.gov/pubmed/~~6634922~~ PubMed ID:https://www.ncbi.nlm.nih.gov/pubmed/~~6634922~~] ~~Somerville C: The Arabidopsis irregular xylem8 mutant is deficient in glucuronoxylan and homogalacturonan~~, ~~that are essential for secondary cell wall integrity. Plant Mobile 2007~~, ~~19:237?fifty five. 33. Brown DM~~, ~~Zhang ZN~~, ~~Stephens~~ E~~, Dupree P, Turner SR~~: ~~Characterization of IRX10 and IRX10-like reveals a necessary job~~ in ~~glucuronoxylan~~ biosynthesis ~~in Arabidopsis~~. ~~Plant J 2009~~, 57:~~732~~?~~46. 34. Lee CH, Teng Q, Huang WL, Zhong RQ, Ye ZH: The F8H glycosyltransferase can be a useful paralog of FRA8 concerned in glucuronoxylan biosynthesis in Arabidopsis~~. ~~Plant Mobile Physiol 2009,~~ fifty~~:812?27~~. ~~35. Wu AM~~, ~~Rihouey C~~, ~~Seveno~~ M, ~~Hornblad E, Singh SK, Matsunaga T, Ishii T, Lerouge P, Marchant A~~: ~~The Arabidopsis IRX10~~ and ~~IRX10-LIKE glycosyltransferases are significant for glucuronoxylan biosynthesis all through secondary mobile wall development~~. ~~Plant~~ J ~~2009~~, 57:~~718~~?31. 36. ~~Keppler BD~~, ~~Showalter AM~~: ~~IRX14 And IRX14~~-LIKE, Two glycosyl transferases included in glucuronoxylan biosynthesis and drought tolerance in Arabidopsis. Mol Plant 2010, 3:834?41.H nblad et al. BMC Plant Biology 2013, thirteen:three http://www.biomedcentral.com/1471-~~2229/13/Page 14 of37. Lee C, Teng Q, Huang WL, Zhong RQ, Ye ZH: The Arabidopsis relatives GT43 glycosyltransferases variety two functionally nonredundant groups essential for the elongation~~ of ~~glucuronoxylan spine~~. ~~Plant Physiol 2010~~, ~~153~~:~~526~~?41. 38. ~~Mortimer JC~~, ~~Miles GP~~, ~~Brown DM~~, ~~Zhang ZN~~, ~~Segura MP~~, ~~Weimar T, Yu XL, Seffen KA, Stephens E, Turner SR, Dupree P~~: ~~Absence~~ of ~~branches from xylan~~ in Arabidopsis ~~gux mutants reveals likely for simplification of lignocellulosic biomass~~.

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