CTL1 Plays a Function in Altering Root Technique Architecture in Response to Various Environmental Circumstances. Plant Physiology 152: 904917. 14. Sanchez-Rodriguez C, Bauer S, Hematy K, Saxe F, Ibanez AB, et al. CHITINASE-LIKE1/POM-POM1 and Its Homolog CTL2 Are GlucanInteracting Proteins Critical for Cellulose Biosynthesis in 
Arabidopsis. Plant Cell 24: 589607. 15. Zhong RQ, Kays SJ, Schroeder BP, Ye ZH Mutation of a chitinase-like gene causes ectopic deposition of lignin, aberrant cell shapes, and overproduction of ethylene. Plant Cell 14: 165179. 16. Collinge DB, Kragh KM, Mikkelsen JD, Nielsen KK, Rasmussen U, et al. PLANT CHITINASES. Plant Journal 3: 3140. 17. Jitonnom J, Lee VS, Nimmanpipug P, Rowlands HA, Mulholland AJ Quantum Mechanics/Molecular Mechanics Modeling of Substrate-Assisted Catalysis in Family 18 Chitinases: Conformational Adjustments and the Role of Asp142 in Catalysis in ChiB. Biochemistry 50: 46974711. 18. Brameld KA, Goddard WA The function of enzyme distortion in the single displacement mechanism of loved ones 19 chitinases. Proceedings from the National Academy of Sciences in the Usa of America 95: 42764281. 19. Jiang C, Huang RF, Song JL, Huang MR, Xu LA Genomewide analysis on the chitinase gene family members in Populus trichocarpa. Journal of Genetics 92: 121 125. 20. PA P, SC dV Arabidopsis Chitinases: A Genomic Survey. The Arabidopsis Book. 125. 21. Hamel F, Boivin R, Tremblay C, Bellemare G Structural and evolutionary relationships amongst chitinases of flowering plants. Journal of Molecular Evolution 44: 614624. 22. Tang CM, Chye ML, Ramalingam S, Ouyang SW, Zhao KJ, et al. Functional analyses with the chitin-binding domains and also the catalytic domain of Brassica juncea chitinase BjCHI1. Plant Molecular Biology 56: 285298. 23. Kombrink E, Schroder M, Hahlbrock K Many PATHOGENESISRELATED PROTEINS IN POTATO ARE 1,3-BETA-GLUCANASES AND CHITINASES. Proceedings of the National Academy of Sciences of your Usa of America 85: 782786. 24. Stintzi A, Heitz T, Prasad V, Wiedemannmerdinoglu S, Kauffmann S, et al. PLANT ZK-36374 biological activity PATHOGENESIS-RELATED PROTEINS AND THEIR Role IN DEFENSE AGAINST PATHOGENS. Biochimie 75: 687706. 25. Witmer X, Nonogaki H, Beers EP, Bradford KJ, Welbaum GE Characterization of chitinase activity and gene expression in muskmelon seeds. Seed Science Study 13: 167177. 26. Hematy K, Sado PE, Van Tuinen A, Rochange S, Desnos T, et al. A receptor-like kinase mediates the response of Arabidopsis cells for the inhibition of cellulose synthesis. Current Biology 17: 922931. 27. Hong SW, Lee U, Vierling E Arabidopsis hot mutants define various functions required for acclimation to higher temperatures. Plant Physiology 132: 757767. 28. Haigler CH, Zhang DH, Wilkerson CG Biotechnological improvement of cotton fibre maturity. Physiologia Plantarum 124: 285294. 29. Robert S, Mouille G, Hofte H The mechanism and regulation of cellulose synthesis in major walls: lessons from cellulose-deficient Arabidopsis mutants. Cellulose 11: 351364. 30. Taylor NG, Gardiner JC, Whiteman R, MedChemExpress Ergocalciferol Turner SR Cellulose synthesis in the Arabidopsis secondary cell wall. Cellulose 11: 329338. 31. Wang ZW, Hobson N, Galindo L, Zhu SL, Shi DH, et al. The genome of flax assembled de novo from short shotgun sequence reads. Plant Journal 72: 461473. 10781694 32. Gorshkova TA, Sal’nikov VV, Chemikosova SB, Ageeva MV, Pavlencheva NV, et al. The snap point: a transition point in Linum usitatissimum bast fiber improvement. Industrial Crops and Products 18: 213221. 33. Ku.CTL1 Plays a Function in Altering Root Program Architecture in Response to Numerous Environmental Situations. Plant Physiology 152: 904917. 14. Sanchez-Rodriguez C, Bauer S, Hematy K, Saxe F, Ibanez AB, et al. CHITINASE-LIKE1/POM-POM1 and Its Homolog CTL2 Are GlucanInteracting Proteins Vital for Cellulose Biosynthesis in Arabidopsis. Plant Cell 24: 589607. 15. Zhong RQ, Kays SJ, Schroeder BP, Ye ZH Mutation of a chitinase-like gene causes ectopic deposition of lignin, aberrant cell shapes, and overproduction of ethylene. Plant Cell 14: 165179. 16. Collinge DB, Kragh KM, Mikkelsen JD, Nielsen KK, Rasmussen U, et al. PLANT CHITINASES. Plant Journal three: 3140. 17. Jitonnom J, Lee VS, Nimmanpipug P, Rowlands HA, Mulholland AJ Quantum Mechanics/Molecular Mechanics Modeling of Substrate-Assisted Catalysis in Family 18 Chitinases: Conformational Alterations and also the Part of Asp142 in Catalysis in ChiB. Biochemistry 50: 46974711. 18. Brameld KA, Goddard WA The role of enzyme distortion in the single displacement mechanism of family 19 chitinases. Proceedings in the National Academy of Sciences with the United states of America 95: 42764281. 19. Jiang C, Huang RF, Song JL, Huang MR, Xu LA Genomewide analysis from the chitinase gene family members in Populus trichocarpa. Journal of Genetics 92: 121 125. 20. PA P, SC dV Arabidopsis Chitinases: A Genomic Survey. The Arabidopsis Book. 125. 21. Hamel F, Boivin R, Tremblay C, Bellemare G Structural and evolutionary relationships amongst chitinases of flowering plants. Journal of Molecular Evolution 44: 614624. 22. Tang CM, Chye ML, Ramalingam S, Ouyang SW, Zhao KJ, et al. Functional analyses with the chitin-binding domains and also the catalytic domain of Brassica juncea chitinase BjCHI1. Plant Molecular Biology 56: 285298. 23. Kombrink E, Schroder M, Hahlbrock K Numerous PATHOGENESISRELATED PROTEINS IN POTATO ARE 1,3-BETA-GLUCANASES AND CHITINASES. Proceedings of your National Academy of Sciences 
of the United states of america of America 85: 782786. 24. Stintzi A, Heitz T, Prasad V, Wiedemannmerdinoglu S, Kauffmann S, et al. PLANT PATHOGENESIS-RELATED PROTEINS AND THEIR Function IN DEFENSE AGAINST PATHOGENS. Biochimie 75: 687706. 25. Witmer X, Nonogaki H, Beers EP, Bradford KJ, Welbaum GE Characterization of chitinase activity and gene expression in muskmelon seeds. Seed Science Study 13: 167177. 26. Hematy K, Sado PE, Van Tuinen A, Rochange S, Desnos T, et al. A receptor-like kinase mediates the response of Arabidopsis cells to the inhibition of cellulose synthesis. Existing Biology 17: 922931. 27. Hong SW, Lee U, Vierling E Arabidopsis hot mutants define various functions expected for acclimation to high temperatures. Plant Physiology 132: 757767. 28. Haigler CH, Zhang DH, Wilkerson CG Biotechnological improvement of cotton fibre maturity. Physiologia Plantarum 124: 285294. 29. Robert S, Mouille G, Hofte H The mechanism and regulation of cellulose synthesis in principal walls: lessons from cellulose-deficient Arabidopsis mutants. Cellulose 11: 351364. 30. Taylor NG, Gardiner JC, Whiteman R, Turner SR Cellulose synthesis inside the Arabidopsis secondary cell wall. Cellulose 11: 329338. 31. Wang ZW, Hobson N, Galindo L, Zhu SL, Shi DH, et al. The genome of flax assembled de novo from short shotgun sequence reads. Plant Journal 72: 461473. 10781694 32. Gorshkova TA, Sal’nikov VV, Chemikosova SB, Ageeva MV, Pavlencheva NV, et al. The snap point: a transition point in Linum usitatissimum bast fiber development. Industrial Crops and Solutions 18: 213221. 33. Ku.
