scholarly journals Pollination Type Recognition from a Distance by the Ovary Is Revealed Through a Global Transcriptomic Analysis

Plants ◽  
2019 ◽  
Vol 8 (6) ◽  
pp. 185 ◽  
Author(s):  
Valentin Joly ◽  
Faïza Tebbji ◽  
André Nantel ◽  
Daniel P. Matton
Keyword(s):  
Pollen Tube ◽  
Wound Response ◽  
Transcriptomic Analysis ◽  
Solanum Chacoense ◽  
Molecular Signature ◽  
Ethylene Signaling ◽  
Wild Potato Species ◽  
Intimate Contact ◽  
Incompatible Pollination ◽  
Pollen Tube Penetration

Sexual reproduction in flowering plants involves intimate contact and continuous interactions between the growing pollen tube and the female reproductive structures. These interactions can trigger responses in distal regions of the flower well ahead of fertilization. While pollination-induced petal senescence has been studied extensively, less is known about how pollination is perceived at a distance in the ovary, and how specific this response is to various pollen genotypes. To address this question, we performed a global transcriptomic analysis in the ovary of a wild potato species, Solanum chacoense, at various time points following compatible, incompatible, and heterospecific pollinations. In all cases, pollen tube penetration in the stigma was initially perceived as a wounding aggression. Then, as the pollen tubes grew in the style, a growing number of genes became specific to each pollen genotype. Functional classification analyses revealed sharp differences in the response to compatible and heterospecific pollinations. For instance, the former induced reactive oxygen species (ROS)-related genes while the latter affected genes associated to ethylene signaling. In contrast, incompatible pollination remained more akin to a wound response. Our analysis reveals that every pollination type produces a specific molecular signature generating diversified and specific responses at a distance in the ovary in preparation for fertilization.

scholarly journals Ethylene Signaling Is Required for Synergid Degeneration and the Establishment of a Pollen Tube Block

2013 ◽  
Vol 25 (3) ◽  
pp. 310-316 ◽  
Author(s):  
Ronny Völz ◽  
Juliane Heydlauff ◽  
Dagmar Ripper ◽  
Ludwig von Lyncker ◽  
Rita Groß-Hardt
Keyword(s):  
Pollen Tube ◽  
Ethylene Signaling ◽  
Synergid Degeneration

scholarly journals Hormonal Changes after Compatible and Incompatible Pollination in Theobroma cacao L.

HortScience ◽  
1997 ◽  
Vol 32 (7) ◽  
pp. 1231-1234 ◽  
Author(s):  
R. Paul Baker ◽  
Karl H. Hasenstein ◽  
Michael S. Zavada
Keyword(s):  
Pollen Tube ◽  
Theobroma Cacao ◽  
Hormonal Changes ◽  
Ethylene Evolution ◽  
Incompatible Pollen ◽  
Incompatibility System ◽  
Incompatible Pollination ◽  
Compatible Pollinations ◽  
Indole 3 Acetic Acid ◽  
Theobroma Cacao L

In order to characterize the self-incompatibility system in Theobroma cacao, the levels of ethylene, indole-3-acetic acid (IAA), and abscisic acid (ABA) were determined after pollination with compatible and incompatible pollen and in unpollinated flowers. Pollen tube growth rates after incompatible and compatible pollinations were identical, and the majority of the pollen tubes reached the ovules between 12 and 20 hours after pollination. ABA levels rose in incompatibly pollinated flowers, and fell in compatibly pollinated flowers, prior to pollen tube—ovule contact. Ethylene evolution remained stable in compatibly pollinated flowers and rose in incompatibly pollinated flowers. IAA concentrations increased in compatibly pollinated flowers, and remained stable in incompatibly pollinated flowers after pollination and subsequent to pollen tube—ovule contact.

scholarly journals Pollen Tube Growth in Interspecific Crosses between Capsicum Species

HortScience ◽  
1991 ◽  
Vol 26 (5) ◽  
pp. 585-586 ◽  
Author(s):  
Sierd Zijlstra ◽  
Coen Purimahua ◽  
Pim Lindhout
Keyword(s):  
Pollen Tube ◽  
Capsicum Annuum ◽  
Pollen Tube Growth ◽  
Pollen Tubes ◽  
Tube Growth ◽  
Egg Cell ◽  
Interspecific Crosses ◽  
Capsicum Species ◽  
Pollen Tube Penetration ◽  
Capsicum Chacoense

Crossing barriers between white- and purple-flowered species were examined. Four accessions of Capsicum annuum and three of C. pubescens were reciprocally crossed with one to four accessions of C. baccatum, C. cardenasii, C. chacoense, C. chinense, C. eximium, C. frutescens, C. galapagoense, and C. praetermissum. Capsicum chacoense is the only white-flowered species that inhibits C. annuum pollen tube growth but allows C. pubescens pollen tube penetration into the egg cell. Capsicum cardenasii and C. eximium exhibit similar crossabilities with C. annuum and C. pubescens: pollen tubes of C. cardenasii and of C. eximium can penetrate the egg cells of C. annuum but not vice versa, and pollen tubes of C. pubescens can penetrate the egg cells of C. cardenasii and of C. eximium but not vice versa.

scholarly journals Peach Blossom Thinning with Armothin

HortScience ◽  
1995 ◽  
Vol 30 (4) ◽  
pp. 852E-852
Author(s):  
Dan Ga'ash ◽  
Israel David ◽  
Malka Cohen
Keyword(s):  
Pollen Tube ◽  
Fruit Set ◽  
Fruit Size ◽  
Weather Conditions ◽  
Repeated Application ◽  
Full Bloom ◽  
Flower Biology ◽  
Pollen Tube Penetration ◽  
Commercial Yield ◽  
Earlier Application

Blossom thinning trials with AKZO Co. surfactant Armothin were carried out on fruitful peach cultivars Early Grande and Babcock during 1993–94. Effective thinning occurred before “full bloom” (40% to 90% FB) at 3% Armothin, increasing between 2% and 4%. However, an improved fruit distribution of `Early Grande' was achieved by repeated application (35% + 75% FB) at 2%. A second spray at 3%, just after FB, thinned some late-blooming flowers on `Babcock' trees, but a temporary leach scorch occurred, as well as with 4% Armothin (single spray) on both cultivars. For a single spray, the optimal stage was found within 60% to 90% FB, at 3% Armothin. Flower biology studies showed susceptibility of the petals to increasing Armothin concentrations at all stages, but pollen tube penetration into the pistils and subsequent fertilization failed only after an earlier application, before anthesis or pollination of the stigma. Within this range of concentration and timing, no damage occurred to the vital fruit set and to commercial yield, provided that weather conditions were favorable during bloom (and spray). Some corrective hand-thinning (20% to 60%) should be applied to the fruitful trees 3 to 4 weeks later to achieve optimal fruit size at harvest. Blossom hand-thinning is still practical in Israel.

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