Pollen and Stigma Structure and Function: The Role of Diversity in ...
Pollen and Stigma Structure and Function: The Role of Diversity in ...
Pollen and Stigma Structure and Function: The Role of Diversity in ...
Create successful ePaper yourself
Turn your PDF publications into a flip-book with our unique Google optimized e-Paper software.
<strong>Pollen</strong> <strong>and</strong> <strong>Stigma</strong> <strong>Structure</strong> <strong>and</strong> <strong>Function</strong><br />
S95<br />
Furness, C.A., Rudall, P.J., <strong>and</strong> Sampson, F.B. (2002). Evolution <strong>of</strong><br />
microsporogenesis <strong>in</strong> angiosperms. Int. J. Plant Sci. 163, 235–260.<br />
Gherard<strong>in</strong>i, G.L., <strong>and</strong> Healey, P.L. (1969). Dissolution <strong>of</strong> outer wall <strong>of</strong><br />
pollen gra<strong>in</strong> dur<strong>in</strong>g poll<strong>in</strong>ation. Nature 224, 718–719.<br />
Goldman, M.H., Goldberg, R.B., <strong>and</strong> Mariani, C. (1994). Female sterile<br />
tobacco plants are produced by stigma-specific cell ablation. EMBO<br />
J. 13, 2976–2984.<br />
Green, J.R. (1894). On the germ<strong>in</strong>ation <strong>of</strong> the pollen gra<strong>in</strong> <strong>and</strong> the<br />
nutrition <strong>of</strong> the pollen tube. Ann. Bot. 8, 225–228.<br />
Gr<strong>in</strong>i, P.E., Schnittger, A., Schwarz, H., Zimmermann, I., Schwab, B.,<br />
Jurgens, G., <strong>and</strong> Hulskamp, M. (1999). Isolation <strong>of</strong> ethyl methanesulfonate-<strong>in</strong>duced<br />
gametophytic mutants <strong>in</strong> Arabidopsis thaliana by<br />
a segregation distortion assay us<strong>in</strong>g the multimarker chromosome 1.<br />
Genetics 151, 849–863.<br />
Gu, Y.Q., Vernoud, V., Fu, Y., <strong>and</strong> Yang, Z. (2003). ROP GTPase<br />
regulation <strong>of</strong> pollen tube growth through the dynamics <strong>of</strong> tip-localized<br />
F-act<strong>in</strong>. J. Exp. Bot. 54, 93–101.<br />
Hall, A.E., Fiebig, A., <strong>and</strong> Preuss, D. (2002). Beyond the Arabidopsis<br />
genome: Opportunities for comparative genomics. Plant Physiol. 129,<br />
1439–1447.<br />
Heizmann, P., Luu, D.T., <strong>and</strong> Dumas, C. (2000). <strong>The</strong> clues to species<br />
specificity <strong>of</strong> poll<strong>in</strong>ation among Brassicaceae. Sex. Plant Reprod. 13,<br />
157–161.<br />
Heslop-Harrison, J. (1968). Wall development with<strong>in</strong> the microspore<br />
tetrad <strong>of</strong> Lilium longiflorum. Can. J. Bot. 46, 1185–1192.<br />
Heslop-Harrison, J. (1971). Wall pattern formation <strong>in</strong> angiosperm<br />
microsporogenesis. Symp. Soc. Exp. Biol. 25, 277–300.<br />
Heslop-Harrison, J. (1975). <strong>The</strong> physiology <strong>of</strong> the pollen gra<strong>in</strong> surface.<br />
Proc. R. Soc. 190, 275–299.<br />
Heslop-Harrison, J. (1979a). An <strong>in</strong>terpretation <strong>of</strong> the hydrodynamics <strong>of</strong><br />
pollen. Am. J. Bot. 66, 737–743.<br />
Heslop-Harrison, J. (1979b). Aspects <strong>of</strong> the structure, cytochemistry<br />
<strong>and</strong> germ<strong>in</strong>ation <strong>of</strong> the pollen <strong>of</strong> rye. Ann. Bot. 44, 1–47.<br />
Heslop-Harrison, J., <strong>and</strong> Heslop-Harrison, Y. (1975). Enzymatic<br />
removal <strong>of</strong> the prote<strong>in</strong>aceous pellicle <strong>of</strong> the stigmatic papilla prevents<br />
pollen tube entry <strong>in</strong> the Caryophyllaceae. Ann. Bot. 39, 163–165.<br />
Heslop-Harrison, J., <strong>and</strong> Heslop-Harrison, Y. (1985). Germ<strong>in</strong>ation <strong>of</strong><br />
stress-tolerant Eucalyptus pollen. J. Cell Sci. 73, 135–157.<br />
Heslop-Harrison, J., <strong>and</strong> Heslop-Harrison, Y. (1989). Conformation<br />
<strong>and</strong> movement <strong>of</strong> the vegetative nucleus <strong>of</strong> the angiosperm<br />
pollentube: Association with the act<strong>in</strong> cytoskeleton. J. Cell Sci. 93,<br />
299–308.<br />
Heslop-Harrison, J., Heslop-Harrison, J.S., <strong>and</strong> Heslop-Harrison, Y.<br />
(1986a). <strong>The</strong> comportment <strong>of</strong> the vegetative nucleus <strong>and</strong> generative<br />
cell <strong>in</strong> the pollen <strong>and</strong> pollen tubes <strong>of</strong> Helleborus foetidus L. Ann. Bot.<br />
58, 1–12.<br />
Heslop-Harrison, Y. (1977). <strong>The</strong> pollen-stigma <strong>in</strong>teraction: <strong>Pollen</strong> tube<br />
penetration <strong>in</strong> crocus. Ann. Bot. 41, 913–922.<br />
Heslop-Harrison, Y. (1981). <strong>Stigma</strong> characteristics <strong>and</strong> angiosperm<br />
taxonomy. Nord. J. Bot. 1, 401–420.<br />
Heslop-Harrison, Y., <strong>and</strong> Heslop-Harrison, J. (1982). <strong>The</strong> micr<strong>of</strong>ibrillar<br />
component <strong>of</strong> the pollen <strong>in</strong>t<strong>in</strong>e: Some structural features. Ann. Bot.<br />
50, 831–842.<br />
Heslop-Harrison, Y., <strong>and</strong> Heslop-Harrison, J. (1992). Germ<strong>in</strong>ation <strong>of</strong><br />
monocolpate angiosperm pollen evolution <strong>of</strong> the act<strong>in</strong> cytoskeleton<br />
<strong>and</strong> wall dur<strong>in</strong>g hydration activation <strong>and</strong> tube emergence. Ann. Bot.<br />
69, 385–394.<br />
Heslop-Harrison, Y., Heslop-Harrison, J.S., <strong>and</strong> Heslop-Harrison, J.<br />
(1986b). Germ<strong>in</strong>ation <strong>of</strong> Corylus avellana L. (Hazel) pollen: Hydration<br />
<strong>and</strong> the function <strong>of</strong> the oncus. Acta Bot. Neerl. 35, 265–284.<br />
Heslop-Harrison, Y., <strong>and</strong> Shivanna, K.R. (1977). <strong>The</strong> receptive surface<br />
<strong>of</strong> the angiosperm stigma. Ann. Bot. 41, 1233–1258.<br />
Hesse, M. (2000). <strong>Pollen</strong> wall stratification <strong>and</strong> poll<strong>in</strong>ation. Plant Syst.<br />
Evol. 222, 1–17.<br />
Hiscock, S.J., Bown, D., Gurr, S.J., <strong>and</strong> Dick<strong>in</strong>son, H.G. (2002a).<br />
Ser<strong>in</strong>e esterases are required for pollen tube penetration <strong>of</strong> the stigma<br />
<strong>in</strong> Brassica. Sex. Plant Reprod. 15, 65–74.<br />
Hiscock, S.J., Dewey, F.M., Coleman, J.O.D., <strong>and</strong> Dick<strong>in</strong>son, H.G.<br />
(1994). Identification <strong>and</strong> localization <strong>of</strong> an active cut<strong>in</strong>ase <strong>in</strong> the<br />
pollen <strong>of</strong> Brassica napus L. Planta 193, 377–384.<br />
Hiscock, S.J., Hoedemaekers, K., Friedman, W.E., <strong>and</strong> Dick<strong>in</strong>son,<br />
H.G. (2002b). <strong>The</strong> stigma surface <strong>and</strong> pollen-stigma <strong>in</strong>teractions <strong>in</strong><br />
Senecio squalidus L. (Asteraceae) follow<strong>in</strong>g cross (compatible) <strong>and</strong><br />
self (<strong>in</strong>compatible) poll<strong>in</strong>ations. Int. J. Plant Sci. 163, 1–16.<br />
Hiscock, S.J., <strong>and</strong> McInnis, S.M. (2003). <strong>The</strong> diversity <strong>of</strong> self<strong>in</strong>compatibility<br />
systems <strong>in</strong> flower<strong>in</strong>g plants. Plant Biol. 5, 23–32.<br />
Hopk<strong>in</strong>s, C.Y., Jevans, A.W., <strong>and</strong> Bock, R. (1969). Occurrence <strong>of</strong><br />
octadecatrans-2,cis-9,cis-12 trienoic acid <strong>in</strong> pollen attractive to the<br />
honey bee. Can. J. Biochem. 47, 433–436.<br />
Howlett, B.J., Knox, R.B., <strong>and</strong> Heslopha, J. (1973). <strong>Pollen</strong>-wall<br />
prote<strong>in</strong>s: Release <strong>of</strong> allergen antigen E from <strong>in</strong>t<strong>in</strong>e <strong>and</strong> ex<strong>in</strong>e sites <strong>in</strong><br />
pollen gra<strong>in</strong>s <strong>of</strong> ragweed <strong>and</strong> cosmos. J. Cell Sci. 13, 603–619.<br />
Hülskamp, M., Kopczak, S.D., Horejsi, T.F., Kihl, B.K., <strong>and</strong> Pruitt,<br />
R.E. (1995). Identification <strong>of</strong> genes required for pollen-stigma<br />
recognition <strong>in</strong> Arabidopsis thaliana. Plant J. 8, 703–714.<br />
Hulskamp, M., Parekh, N.S., Gr<strong>in</strong>i, P., Schneitz, K., Zimmermann, I.,<br />
Lolle, S.J., <strong>and</strong> Pruitt, R.E. (1997). <strong>The</strong> STUD gene is required for<br />
male-specific cytok<strong>in</strong>esis after telophase II <strong>of</strong> meiosis <strong>in</strong> Arabidopsis<br />
thaliana. Dev. Biol. 187, 114–124.<br />
Jackson, R.C., Skvarla, J.J., <strong>and</strong> Chissoe, W.F. (2000). A unique<br />
pollen wall mutation <strong>in</strong> the family Compositae: Ultrastructure <strong>and</strong><br />
genetics. Am. J. Bot. 87, 1571–1577.<br />
Johnson, M.A., <strong>and</strong> Preuss, D. (2002). Plott<strong>in</strong>g a course: Multiple<br />
signals guide pollen tubes to their targets. Dev. Cell 2, 273–281.<br />
Johnson, S.A., <strong>and</strong> McCormick, S. (2001). <strong>Pollen</strong> germ<strong>in</strong>ates precociously<br />
<strong>in</strong> the anthers <strong>of</strong> rar<strong>in</strong>g-to-go, anArabidopsis gametophytic<br />
mutant. Plant Physiol. 126, 685–695.<br />
K<strong>and</strong>asamy, M.K., Thorsness, M.K., Rundle, S.J., Goldberg, M.L.,<br />
Nasrallah, J.B., <strong>and</strong> Nasrallah, M.E. (1993). Ablation <strong>of</strong> papillar cell<br />
function <strong>in</strong> Brassica flowers results <strong>in</strong> the loss <strong>of</strong> stigma receptivity to<br />
poll<strong>in</strong>ation. Plant Cell 5, 263–275.<br />
Kang, B.H., Busse, J.S., <strong>and</strong> Bednarek, S.Y. (2003). Members <strong>of</strong> the<br />
Arabidopsis Dynam<strong>in</strong>-like gene family, ADL1, are essential for plant<br />
cytok<strong>in</strong>esis <strong>and</strong> polarized cell growth. Plant Cell 15, 899–913.<br />
Kang, B.H., Bussey, H., Dickey, C., Rancour, D.M., <strong>and</strong> Bednarek,<br />
S.Y. (2001). <strong>The</strong> Arabidopsis cell plate-associated dynam<strong>in</strong>-like<br />
prote<strong>in</strong>, ADL1a, is required for multiple stages <strong>of</strong> plant growth <strong>and</strong><br />
development. Plant Physiol. 126, 47–68.<br />
Kao, T.H., <strong>and</strong> Tsukamoto, T. (2004). <strong>The</strong> molecular <strong>and</strong> genetic bases<br />
<strong>of</strong> S-RNase-based self-<strong>in</strong>compatibility. Plant Cell 16 (suppl.), S72–<br />
S83.<br />
Kim, H.U., Chung, T.Y., <strong>and</strong> Kang, S.K. (1996). Characterization <strong>of</strong><br />
anther-specific genes encod<strong>in</strong>g a putative pect<strong>in</strong> esterase <strong>of</strong> Ch<strong>in</strong>ese<br />
cabbage. Mol. Cells 6, 334–340.<br />
Knox, R.B., <strong>and</strong> Heslop-Harrison, J. (1970). <strong>Pollen</strong>-wall prote<strong>in</strong>s:<br />
Localization <strong>and</strong> enzymic activity. J. Cell Sci. 6, 1–27.<br />
Kost, B., Lemichez, E., Spielh<strong>of</strong>er, P., Hong, Y., Tolias, K., Carpenter,<br />
C., <strong>and</strong> Chua, N.H. (1999). Rac homologues <strong>and</strong> compartmentalized<br />
phosphatidyl<strong>in</strong>ositol 4,5-bisphosphate act <strong>in</strong> a common pathway to<br />
regulate polar pollen tube growth. J. Cell Biol. 145, 317–330.<br />
Lalanne, E., <strong>and</strong> Twell, D. (2002). Genetic control <strong>of</strong> male germ unit<br />
organization <strong>in</strong> Arabidopsis. Plant Physiol. 129, 865–875.<br />
Lalonde, B.A., Nasrallah, M.E., Dwyer, K.G., Chen, C.H., Barlow, B.,<br />
<strong>and</strong> Nasrallah, J.B. (1989). A highly conserved Brassica gene with