Krska, B.

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7ba7ae29-1c5a-45f7-8510-10723f591953
  • Krska, B. (2)
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Author's Bibliography

Fluorescence microscopy as a tool for determining self-incompatibility in apricot cultivars

Milatović, Dragan; Nikolić, D.; Radović, Aleksandar; Krska, B.

(Int Soc Horticultural Science, Leuven 1, 2018) 

TY  - CONF
AU  - Milatović, Dragan
AU  - Nikolić, D.
AU  - Radović, Aleksandar
AU  - Krska, B.
PY  - 2018
UR  - http://aspace.agrif.bg.ac.rs/handle/123456789/4626
AB  - Fluorescence microscopy is a relatively rapid and reliable method to determine self-incompatibility in fruit-tree species. It is based on observation of pollen-tube growth in the pistils. Pollen tubes stained with fluorochromes show fluorescence when exposed to ultraviolet light. Testing of the self-compatibility trait was carried out in 123 apricot cultivars using fluorescence microscopy. In self-compatible cultivars, in the majority of pistils (60-100%), the pollen tubes reached the ovary. In contrast, in self-incompatible cultivars, pollen tubes growth ceased in the style, with plugs forming at their tips. In these cultivars, pollen tubes rarely (0-30%) reached the base of the style. Although apricot cultivars of the European eco-geographical group are traditionally considered self-compatible, we identified many self-incompatible cultivars, especially among those originating from new North American and West European breeding programs. About half ( 62) of the studied cultivars were self-incompatible. Given that self-incompatibility occurs frequently among new apricot cultivars, special care should be taken when considering cultivar composition in new orchard plantings.
PB  - Int Soc Horticultural Science, Leuven 1
C3  - XVI International Symposium on Apricot Breeding and Culture
T1  - Fluorescence microscopy as a tool for determining self-incompatibility in apricot cultivars
EP  - 13
SP  - 7
VL  - 1214
DO  - 10.17660/ActaHortic.2018.1214.2
ER  - 
@conference{
author = "Milatović, Dragan and Nikolić, D. and Radović, Aleksandar and Krska, B.",
year = "2018",
abstract = "Fluorescence microscopy is a relatively rapid and reliable method to determine self-incompatibility in fruit-tree species. It is based on observation of pollen-tube growth in the pistils. Pollen tubes stained with fluorochromes show fluorescence when exposed to ultraviolet light. Testing of the self-compatibility trait was carried out in 123 apricot cultivars using fluorescence microscopy. In self-compatible cultivars, in the majority of pistils (60-100%), the pollen tubes reached the ovary. In contrast, in self-incompatible cultivars, pollen tubes growth ceased in the style, with plugs forming at their tips. In these cultivars, pollen tubes rarely (0-30%) reached the base of the style. Although apricot cultivars of the European eco-geographical group are traditionally considered self-compatible, we identified many self-incompatible cultivars, especially among those originating from new North American and West European breeding programs. About half ( 62) of the studied cultivars were self-incompatible. Given that self-incompatibility occurs frequently among new apricot cultivars, special care should be taken when considering cultivar composition in new orchard plantings.",
publisher = "Int Soc Horticultural Science, Leuven 1",
journal = "XVI International Symposium on Apricot Breeding and Culture",
title = "Fluorescence microscopy as a tool for determining self-incompatibility in apricot cultivars",
pages = "13-7",
volume = "1214",
doi = "10.17660/ActaHortic.2018.1214.2"
}
Milatović, D., Nikolić, D., Radović, A.,& Krska, B.. (2018). Fluorescence microscopy as a tool for determining self-incompatibility in apricot cultivars. in XVI International Symposium on Apricot Breeding and Culture
Int Soc Horticultural Science, Leuven 1., 1214, 7-13.
https://doi.org/10.17660/ActaHortic.2018.1214.2
Milatović D, Nikolić D, Radović A, Krska B. Fluorescence microscopy as a tool for determining self-incompatibility in apricot cultivars. in XVI International Symposium on Apricot Breeding and Culture. 2018;1214:7-13.
doi:10.17660/ActaHortic.2018.1214.2 .
Milatović, Dragan, Nikolić, D., Radović, Aleksandar, Krska, B., "Fluorescence microscopy as a tool for determining self-incompatibility in apricot cultivars" in XVI International Symposium on Apricot Breeding and Culture, 1214 (2018):7-13,
https://doi.org/10.17660/ActaHortic.2018.1214.2 . .
1
1

Testing of self-(in)compatibility in apricot cultivars from European breeding programmes

Milatović, Dragan; Nikolić, D.; Krska, B.

(Czech Academy Agricultural Sciences, Prague, 2013) 

TY  - JOUR
AU  - Milatović, Dragan
AU  - Nikolić, D.
AU  - Krska, B.
PY  - 2013
UR  - http://aspace.agrif.bg.ac.rs/handle/123456789/3365
AB  - Self-(in)compatibility was tested in 40 new apricot cultivars from European breeding programmes Pollen-tube growth in pistils from laboratory pollinations was analysed using the fluorescence microscopy. Cultivars were considered self-compatible if at least one pollen tube reached the ovary in the majority of pistils. Cultivars were considered self-incompatible if the growth of pollen tubes in the style stopped along with formation of characteristic swellings. Of the examined cultivars, 18 were self-compatible and 22 were self-incompatible. Fluorescence microscopy provides a relatively rapid and reliable method to determine self-incompatibility in apricot cultivars.
PB  - Czech Academy Agricultural Sciences, Prague
T2  - Horticultural Science
T1  - Testing of self-(in)compatibility in apricot cultivars from European breeding programmes
EP  - 71
IS  - 2
SP  - 65
VL  - 40
DO  - 10.17221/219/2012-HORTSCI
ER  - 
@article{
author = "Milatović, Dragan and Nikolić, D. and Krska, B.",
year = "2013",
abstract = "Self-(in)compatibility was tested in 40 new apricot cultivars from European breeding programmes Pollen-tube growth in pistils from laboratory pollinations was analysed using the fluorescence microscopy. Cultivars were considered self-compatible if at least one pollen tube reached the ovary in the majority of pistils. Cultivars were considered self-incompatible if the growth of pollen tubes in the style stopped along with formation of characteristic swellings. Of the examined cultivars, 18 were self-compatible and 22 were self-incompatible. Fluorescence microscopy provides a relatively rapid and reliable method to determine self-incompatibility in apricot cultivars.",
publisher = "Czech Academy Agricultural Sciences, Prague",
journal = "Horticultural Science",
title = "Testing of self-(in)compatibility in apricot cultivars from European breeding programmes",
pages = "71-65",
number = "2",
volume = "40",
doi = "10.17221/219/2012-HORTSCI"
}
Milatović, D., Nikolić, D.,& Krska, B.. (2013). Testing of self-(in)compatibility in apricot cultivars from European breeding programmes. in Horticultural Science
Czech Academy Agricultural Sciences, Prague., 40(2), 65-71.
https://doi.org/10.17221/219/2012-HORTSCI
Milatović D, Nikolić D, Krska B. Testing of self-(in)compatibility in apricot cultivars from European breeding programmes. in Horticultural Science. 2013;40(2):65-71.
doi:10.17221/219/2012-HORTSCI .
Milatović, Dragan, Nikolić, D., Krska, B., "Testing of self-(in)compatibility in apricot cultivars from European breeding programmes" in Horticultural Science, 40, no. 2 (2013):65-71,
https://doi.org/10.17221/219/2012-HORTSCI . .
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