Biology Reference
In-Depth Information
44. Grayum MH: Evolutionary and ecological significance of starch storage in pol-
len of the Araceae. American Journal of Botany 1985, 72:1565-1577.
45. Brewbaker JL: Distribution and phylogenetic significance of binucleate and
trinucleate pollen grains in angiosperms. American Journal of Botany 1967,
54:1069-1083.
46. Baker HG, Baker I: Starch in angiosperm pollen grains and its evolutionary
significance. American Journal of Botany 1979, 66:591-600.
47. Lora J, Oteyza MAP, Fuentetaja P, Hormaza JI: Low temperature storage and
in vitro germination of cherimoya (Annona cherimola Mill.) pollen. Scientia
Horticulturae 2006, 108:91-94.
48. Lora J, Herrero M, Hormaza JI: The coexistence of bicellular and tricellular
pollen in Annona cherimola Mill. (Annonaceae): Implications for pollen evolu-
tion. American Journal of Botany 2009, 96:802-808.
49. Francis KE, Lam SY, Copenhaver GP: Separation of Arabidopsis pollen tetrads
is regulated by QUARTET1, a pectin methylesterase gene. Plant Physiology
2006, 142:1004-1013.
50. Neelam A, Sexton R: Cellulase (endo beta-1,4 glucanase) and cell-wall break-
down during anther development in the sweet pea (Lathyrus odoratus L.): isola-
tion and characterization of partial cDNA clones. Journal of Plant Physiology
1995, 146:622-628.
51. Rowley JR: Formation of the pore in pollen of Poa annua. In Pollen physiology
and fertilization. Edited by: Linskens HF. North-Holland Publishing Compa-
ny, Amsterdam, Netherlands; 1964:59-69.
52. Rudall PJ, Bateman RM: Developmental bases for key innovations in the seed-
plant microgametophyte. Trends in Plant Science 2007, 12:317-326.
53. Rhee SY, Somerville CR: Tetrad pollen formation in quartet mutants of Ara-
bidopsis thaliana is associated with persistence of pectic polysaccharides of the
pollen mother cell wall. Plant Journal 1998, 15:79-88.
54. Testillano PS, Fadon B, RisueƱo MC: Ultrastructural localization of the poly-
saccharidic component during the sporoderm ontogeny of the pollen grain.
Review of Paleobotany and Palynology 1995, 85:53-62.
55. Enns LC, Kanaoka MM, Torii KU, Comai L, Okada K, Cleland RE: Two
callose synthases, GSL1 and GSL5, play an essential and redundant role in
plant and pollen development and in fertility. Plant Molecular Biology 2005,
58:333-349.
