Biomedical Engineering Reference
In-Depth Information
42. Salnikov, V.V.; Grimson, M.J.; Delmer, D.P.; Haigler, C.H., Sucrose synthase
localizes to cellulose synthesis sites in tracheary elements.
Phytochem
.
2001
, 57(6),
823-33.
43. Bieniawska, Z.; Paul Barratt, D.H.; Garlick, A.P.
et al
., Analysis of the sucrose
synthase gene family in Arabidopsis.
Plant J
.
2007
, 49(5), 810-28.
44. Hardin, S.C.; Duncan, K.A.; Huber, S.C., Determination of structural requirements
and probable regulatory effectors for membrane association of maize sucrose syn-
thase 1.
Plant Physiol
.
2006
, 141, (3), 1106-19.
45. Haigler, C.H.; Ivanova-Datcheva, M.; Hogan, P.S.; Salnikov, V.V.; Hwang, S.;
Martin, K.; Delmer, D.P., Carbon partitioning to cellulose synthesis.
Plant Mol.
Biol
.
2001
, 47(1-2), 29-51.
46. Read, S.M.; Bacic, T., Prime time for cellulose.
Science
2002
, 295, 59-60.
47. Saxena, I.M.; Brown, R.M., Jr.; Dandekar, T., Structure - function characterization
of cellulose synthase: relationship to other glycosyltransferases.
Phytochem
.
2001
,
57(7), 1135-48.
48. Carpita, N.; Vergara, C., A recipe for cellulose.
Science
1998
, 279(5351), 672-3.
49. Merzendorfer, H., Insect chitin synthases: a review.
J. Comp. Physiol. [B]
2006
,
176(1), 1-15.
50. Timpa, J.D.; Triplett, B.A., Analysis of cell-wall polymers during cotton fiber devel-
opment.
Planta
1993
, 189, 101-8.
51. Benedict, C.R.; Kohel, R.J.; Jividen, G.M., Crystalline cellulose and cotton fiber
strength.
Crop Sci
.
1994
, 34(1), 147-51.
52. Vergara, C.E.; Carpita, N.C., Beta-D-glycan synthases and the CesA gene fam-
ily: lessons to be learned from the mixed-linkage (1 -
>
3),(1 -
>
4)beta-D-glucan
synthase.
Plant Mol. Biol
.
2001
, 47(1-2), 145-60.
53. Haigler, C.H.; White, A.R.; Brown, R.M., Jr.; Cooper, K.M., Alteration of in vivo
cellulose ribbon assembly by carboxymethylcellulose and other cellulose derivatives.
J. Cell Biol
.
1982
, 94(1), 64-9.
54. Grimson, M.J.; Haigler, C.H.; Blanton, R.L., Cellulose microfibrils, cell motility,
and plasma membrane protein organization change in parallel during culmination in
Dictyostelium discoideum
.
J. Cell Sci
.
1996
, 109, 3079-87.
55. Tsekos, I., The sites of cellulose synthesis in algae: Diversity and evolution of
cellulose-synthesizing enzyme complexes.
J. Phycol
.
1999
, 35, 635-55.
56. Kimura, S.; Itoh, T., Cellulose synthesizing terminal complexes in the ascidians.
Cellulose
2004
, 11(3-4), 377-83.
57. Chisholm, R.L.; Gaudet, P.; Just, E.M.
et al
., dictyBase, the model organism
database for Dictyostelium discoideum.
Nucleic Acids Res
.
2006
, 34(Database
issue), D423-7.
58. Kennedy, C.J.; Cameron, C.J.; Sturcova, A.
et al
., Microfibril diameter in celery
collenchyma cellulose: X-ray scattering and NMR evidence.
Cellulose
2007
, 14,
235-46.
59. Bowling, A.J.; Brown, R.M., Jr., The cytoplasmic domain of the cellulose-
synthesizing complex in vascular plants.
Protoplasma
2008
, 233(1-2), 115-27.
60. Chanzy, H.; Imada, K.; Vuong, R., Electron diffraction from the primary walls of
cotton fibers.
Protoplasma
1978
, 94, 299-306.
Search WWH ::
Custom Search