PL EN


Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
2012 | 54 | 1 |

Tytuł artykułu

Structure and cytochemical features of stigma and style of ornithogalum sigmoideum Freyn and Sint, unpollinated and pollinated pistil

Treść / Zawartość

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
The stigma of Ornithogalum sigmoideum is of dry and papillate type. The papillae are covered by a cuticle-pellicle layer, as revealed by staining. The activity of nonspecific esterase, acid phosphatase and peroxidase increases in the pellicle during the receptivity period. The style of O. sigmoideum is of the hollow type. Ultrastructural study of the cells lining the canal indicated that they are secretory cells and contain abundant endoplasmic reticulum, dictyosomes, mitochondria, plastids and ribosomes. After anthesis these organelles show degeneration at the end of the secretory phase. In canal cells, cytochemical tests showed the presence of acidic polyanions, insoluble and acidic polysaccharides, proteins and lipids. Before anthesis the canal cells are rich in polysaccharides, proteins and lipids. At maturity the cuticle is ruptured and secretory materials from the canal cells are released into the canal. In the unpollinated style of O. sigmoideum the exudates accumulated in the center of the canal; in pollinated pistils the same secretion materials were dispersed through the canal, which became wider.

Wydawca

-

Rocznik

Tom

54

Numer

1

Opis fizyczny

p.65-75,fig.,ref.

Twórcy

  • Department of Biology, Marmara University, Goztepe 34722, Istanbul, Turkey
autor

Bibliografia

  • BIRECKA H, BRIBER A, and CATALFAMO JL. 1973. Comparative studies on tobacco pith and sweet potato root isoperoxidasesin relation to injury, indolacetic acid and ethyleneeffects. Plant Physiology 52: 43–49.
  • CHEUNG AY. 1996. The pollen tube growth pathway: Its molecular and biochemical contributions and responses topollination. Sexual Plant Reproduction 9 (6): 330–336.
  • CIAMPOLINI F, CRESTI M, SARFATTI G, and TIEZZI A. 1981. Ultrastructure of the stylar canal cells of Citrus limon(Rutaceae). Plant Systematics and Evolution 130:263–274.
  • CIAMPOLINI F, SHIVANNA KR, and CRESTI M. 1988. The structure and cytochemistry of the pistil of Hypericum calycinum:Style. Sexual Plant Reproduction 1: 248–255.
  • CIAMPOLINI F, SHIVANNA KR, and CRESTI M. 1990. The structure and cytochemistry of the pistil of Sternbergia lutea (Amaryllidaceae). Annals of Botany 66: 703–712.
  • CIAMPOLINI F, and CRESTI M. 1997. Ultrastructural observations of stigmatic style of Corylus avellana. Atti AccademiaFisiocritici Siena 16: 73–74.
  • CLARKE AE, CONSODINE JA, WARD R, and KNOX RB. 1977. Mechanism of pollination in Gladiolus: Roles of stigmaand pollen tube guide. Annals of Botany 41: 15–20.
  • DAFNI A, and MOTTE MAUES M. 1998. A rapid and simple procedure to determine stigma receptivity. Sexual PlantReproduction 11: 177–180.
  • DICKINSON HG, MORIARTY J, and LAWSON J. 1982. Pollen pistil interaction in Lilium longiflorum: The role of the pistil incontrolling pollen tube growth following cross and selfpollinations.Proceedings of the Royal Society ofLondon. Series B 215: 45–62.
  • DUPUIS I, and DUMAS C. 1990. Biochemical markers of female receptivity in Maize (Zea mays L.) assessed using in vitro fertilization. Plant Science 70: 11–20.
  • FEDER N, and O'BRIEN TP. 1968. Plant microtechnique: Some principles and new methods. American Journal of Botany 55: 123–142.
  • GHOSH S, and SHIVANNA KR. 1980. Pollen-pistil interaction in Lilium grandiflorum: Scanning electron microscopicobservations and proteins of the stigma surface. Planta149: 257–261.
  • GHOSH S, and SHIVANNA KR. 1984. Structure and cytochemistry of the stigma and pollen-pistil interaction inZephyranthes. Annals of Botany 53: 91–105.
  • GOMORI G. 1941. Distribution of acid phosphatase in the tissues under normal and under pathologic conditions. Archives of Pathology 32:189–199.
  • GOMORI G. 1950. An improved histochemical technique for acid phosphatase. Stain Technology 25:81–85.
  • HESLOP-HARRISON J. 1979. Aspects of the structure, cytochemistry and germination of the pollen of rye (Secalecereale L.). Annals of Botany 44: 1–47.
  • HESLOP-HARRISON J, HESLOP-HARRISON Y, KNOX RB, and HOWLETT B. 1973. Pollen wall proteins: Gametophyticand sporophytic fractions in the pollen walls of theMalvaceae. Annals of Botany 37: 403–412.
  • HESLOP-HARRISON Y, and SHIVANNA KR. 1977. The receptive surface of the angiosperm stigma. Annals of Botany41:1233–1258.
  • HISCOCK SJ, HOEDEMAEKERS K, FRIEDMAN WE, and DICKINSON HG. 2002. The stigma surface and pollen-stigma interactionsin Senecio squalidus L. (Asteraceae) followingross (compatible) and self (incompatible) pollinations. International Journal of Plant Sciences 163: (1)1–16.
  • JAUH GY, and LORD EM. 1996. Localization of pectins and arabinogalactan proteins in lily (Lilium longiflorum L.) pollen tube and style and their possible roles in pollination.Planta 199: 251–261.
  • JAUH GY, ECKARD KJ, NOTHNAGEL EA, and LORD EM. 1997. Adhesion of lily pollen tubes on an artificial matrix.Sexual Plant Reproduction 10: 173–180.
  • KANDASAMY MK, and KRISTEN U. 1987. Developmental aspects of ultrastructure, histochemistry and receptivity of thestigma of Nicotiana sylvestris. Annals of Botany 60:427–437.
  • KENRICK J, and KNOX RB. 1981. Post-pollination exudates from stigmas of Acacia (Mimosaceae). Annals of Botany 48:103–106.
  • KULLONI SK, RAMASUBBO R, SREEKALA AK, and PANDURANGAN AG. 2010. Cytochemical localization of stigma-surfaceesterases in three species of Impatiens (Balsaminaceae)of Western Ghats. Asian Journal of ExperimentalBiological Sciences 1 (1): 106–111.
  • LOEWUS F, and LABARCA C. 1973. Pistil secretion product and pollen tube wall formation. In: Biogenesis of Plant CellWall Polysaccharides, 125–193. Loewus, New York,London.
  • MATTSSON O, KNOX RB, HESLOP-HARRISON J, and HESLOPHARRISON Y. 1974. Protein pellicle of stigmatic papillae as a probable recognition site in incompatibility reactions.Nature 247: 298–300.
  • MAYER JL, and PICKERSGILL B. 1990. Stigma morphology and pollination in Arachis L. Annals of Botany 66: 73–82.
  • MCINNIS SM, EMERY DC, PORTER R, DESIKAN R, HANCOCK JT, and HISCOCK SJ. 2006. The role of stigma peroxidases inflowering plants: Insights from further characterizationof a stigma-specific peroxidase (SSP) from Seneciosqualidus (Asteracea). Journal of Experimental Botany57 (8): 1835–1846.
  • PEARSE AGE. 1961. Histochemistry. Theoretical and Applied. 2nd ed. Boston: Little, Brown &Co.
  • RAGHAVAN V. 1997. Pollination and fertilization-stigma, style and pollen-pistil interaction. In: Molecular Embryologyof Flowering Plants, 181–201. Cambridge UniversityPress.
  • ROSEN WG, and THOMAS HR. 1970. Secretory cells of lily pistils. I. Fine structure and function. American Journal ofBotany 57: 114–118.
  • SEYMOUR R, and BLAYLOCK AJ. 2000. Stigma peroxidase activity in association with thermogenesis in Nelumbonucifera. Aquatic Botany 67: 155–159.
  • SHIVANNA KR, and JOHRI BM. 1985. Pollen pistil interaction. In: The Angiosperm Pollen. 163–197. New Delhi.
  • STPICZYNSKA M. 2003. Stigma receptivity during the life span of Platanthera chlorantha Custer (Rchb) Flowers. ActaBiologica Cracoviensia Series Botanica 45: 37–41.
  • TANDON R, MANOHARA TN, NIJALINGAPPA BHM, and SHIVANNA KR. 2001. Pollination and pollen-pistil interaction in oilpalm, Elaeis guineensis. Annals of Botany 87: 831–838.
  • TILTON VR, and HORNER HT. 1980. Stigma, style and obturator of Ornithogalum caudatum (Liliaceae) and their functionin the reproductive process. American Journal ofBotany 67 (7): 1113–1131.
  • VASILEV AE. 1970. Ultrastructure of stigmatoid cells in Lilium. Soviet Plant Physiology 17: 1035–1044.
  • VITHANAGE HIMV. 1984. Pollen stigma interactions: Development and cytochemistry of stigma papillae andtheir secretion in Annona squamosa L. (Annonaceae).Annals of Botany 54: 153–167.

Uwagi

Rekord w opracowaniu

Typ dokumentu

Bibliografia

Identyfikatory

Identyfikator YADDA

bwmeta1.element.agro-bed7e8a5-8b49-453b-bb4a-aafd5d714fd4
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.