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CESA1 antibody (Cellulose Synthase A Catalytic Subunit 1) (N-Term)

Details for Product anti-CESA1 Antibody No. ABIN965863, Supplier: Log in to see
Antigen
  • AtCESA1
  • CELLULOSE SYNTHASE 1
  • cellulose synthase 1
  • F8B4.110
  • F8B4_110
  • RADIALLY SWOLLEN 1
  • RSW1
Epitope
N-Term
7
4
1
1
1
1
1
1
Reactivity
Arabidopsis thaliana
11
Host
Rabbit
11
Clonality
Polyclonal
Application
Immunohistochemistry (IHC)
6
Supplier
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Immunogen Polyclonal antibody produced in rabbits immunizing with a synthetic peptide corresponding to near N-terminal residues of Plant Thale cress (Arabidopsis thaliana) CESA1 (Cellulose synthase A catalytic subunit 1)
Alternative Name CESA1 (CESA1 Antibody Abstract)
Background CESA1 (Cellulose synthase A catalytic subunit 1) catalytic subunit of cellulose synthase terminal complexes ('rosettes'), required for beta-1,4-glucan microfibril crystallization, a major mechanism of the cell wall formation. CESA1 (Cellulose synthase A catalytic subunit 1) is involved in the primary cell wall formation. CESA1 (Cellulose synthase A catalytic subunit 1) is required during embryogenesis for cell elongation, orientation of cell expansion and complex cell wall formations, such as interdigitated pattern of epidermal pavement cells, stomatal guard cells and trichomes. CESA1 plays a role in lateral roots formation, but seems not necessary for the development of tip-growing cells such as root hairs. The presence of each protein CESA1 and CESA6 is critical for cell expansion after germination. CESA1 interacts with CESA3 and CESA6. Assembly with CESA3 and CESA6 is required for functional complex in primary cell wall cellulose synthesis. CESA1 is expressed in germinating seeds, seedlings, roots, stems, shoots leaves and flowers, but not in mature flowers. CESA1 is expressed throughout the embryo during all steps of embryogenesis, and decrease toward the bent-cotyledon stage. Higher levels in tissues undergoing primary cell wall formation, and drop of expression when secondary wall synthesis takes place. High levels in developing seedlings and elongating stems, with a decrease at later growth stages.
Synonyms: F8B4.110, RSW1
Restrictions For Research Use only
Product cited in: Gillmor, Poindexter, Lorieau, Palcic, Somerville: "Alpha-glucosidase I is required for cellulose biosynthesis and morphogenesis in Arabidopsis." in: The Journal of cell biology, Vol. 156, Issue 6, pp. 1003-13, 2002

Ellis, Karafyllidis, Wasternack, Turner: "The Arabidopsis mutant cev1 links cell wall signaling to jasmonate and ethylene responses." in: The Plant cell, Vol. 14, Issue 7, pp. 1557-66, 2002

Burn, Hocart, Birch, Cork, Williamson: "Functional analysis of the cellulose synthase genes CesA1, CesA2, and CesA3 in Arabidopsis." in: Plant physiology, Vol. 129, Issue 2, pp. 797-807, 2002

Richmond: "Higher plant cellulose synthases." in: Genome biology, Vol. 1, Issue 4, pp. REVIEWS3001, 2001

Peng, Hocart, Redmond, Williamson: "Fractionation of carbohydrates in Arabidopsis root cell walls shows that three radial swelling loci are specifically involved in cellulose production." in: Planta, Vol. 211, Issue 3, pp. 406-14, 2001

Fagard, Desnos, Desprez, Goubet, Refregier, Mouille, McCann, Rayon, Vernhettes, Höfte: "PROCUSTE1 encodes a cellulose synthase required for normal cell elongation specifically in roots and dark-grown hypocotyls of Arabidopsis." in: The Plant cell, Vol. 12, Issue 12, pp. 2409-2424, 2001

Scheible, Eshed, Richmond, Delmer, Somerville: "Modifications of cellulose synthase confer resistance to isoxaben and thiazolidinone herbicides in Arabidopsis Ixr1 mutants." in: Proceedings of the National Academy of Sciences of the United States of America, Vol. 98, Issue 18, pp. 10079-84, 2001

Williamson, Burn, Birch, Baskin, Arioli, Betzner, Cork: "Morphology of rsw1, a cellulose-deficient mutant of Arabidopsis thaliana." in: Protoplasma, Vol. 215, Issue 1-4, pp. 116-27, 2001

Sugimoto, Williamson, Wasteneys: "Wall architecture in the cellulose-deficient rsw1 mutant of Arabidopsis thaliana: microfibrils but not microtubules lose their transverse alignment before microfibrils become unrecognizable in the mitotic and elongation zones of roots." in: Protoplasma, Vol. 215, Issue 1-4, pp. 172-83, 2001

Arioli, Peng, Betzner, Burn, Wittke, Herth, Camilleri, Höfte, Plazinski, Birch, Cork, Glover, Redmond, Williamson: "Molecular analysis of cellulose biosynthesis in Arabidopsis." in: Science (New York, N.Y.), Vol. 279, Issue 5351, pp. 717-20, 1998