Karyological Studies on Mediterrenean Sage (Salvia aethiopis L.)

Uğur Özkan; Berk Benlioğlu; Yasin Özgen

Research Article

Karyological Studies on Mediterrenean Sage (Salvia aethiopis L.)

Year 2017, Volume: 11 Issue: 2, 33 - 34, 31.08.2017

Abstract

Mediterranean sage (Salvia aethiopis L.) is a species being part of Lamiaceae family and important in terms of economic aspect. Caryological studies are important in developing this species and determining the hybridizarion process of this species with other ones. In this study, the root tips obtained after the germination with mature seeds have been pre-treated in the α-monobromonaphtalane solution and stained by aceto-orcein. According to the karyotype analysis applied, it has been observed that this species has a chromosome number equivalent of 2n=2x=22 (14m + 8 sm). It has been measured that the average length of chromosome regarding to this species is 2.043 μm, the longest arm lenght was 1.994 μm, the shortest arm lenght was 0.604 μm. Relative lenghts of chromosomes ranged between 3.22-6.73%. Arm ratios and centromeric index were changed between 1.140-2.120 and 0.320-0.468, respectively.

Keywords

Medicinal plant, Karyotype, Caryological characterization, Chromosome

References

[1] Harley RM, Atkins S, Budantsev AL, Cantino PD, Conn BJ, Grayer R and Upson T. 2004. Labiatae. In Flowering Plants· Dicotyledons (pp. 167-275).
[2] Anonymous, 2017a. http://www.bizimbitkiler.org.tr/v2/hiyerarsi.php?c=Salvia. Access date:24.10.2017
[3] Anonymous, 2017b. http://www.theplantlist.org/1.1/browse/A/Lamiaceae/Salvia/. Access date:22.10.2017
[4] Hernandez-Perez M, Rabanal RM, Arias A, De La Torre MC and Rodriquez B. 1999. Athiopi-none an Antibacterial and Cytotoxic Agent from Salvia aethiopis Roots, Pharmaceutical Biology, 37:1, 7-21.
[5] Sheidai M and Alijanpoo B. 2011. Karyotype analysis in some Salvia species (Lamiaceae) of Iran. Cytologia, 76(4), 425-429.
[6] Özkan M. 2006. Karyotype analysis on two endemic Salvia L.(Lamiaceae) species in Turkey. International Journal of Botany, 2(3), 333-335.
[7] Kharazian N. 2011. Karyotypic study of some Salvia (Lamiaceae) species from Iran. Journal of Applied Biological Sciences, 5(3), 21-25.
[8] Martin E, Cetin O, Kahraman A, Celep F and Dogan M. 2011. A cytomorphological study in some taxa of the genus Salvia L.(Lamiaceae).Caryologia, 64(3), 272-287
[9] Benlioglu B and Özgen M. 2014. The Effect Of Different 2,4-Dichlorophenoxyacetic Acid Doses On Chromosomal Structure Of Regenerants In Barley (Hordeum vulgare L.) Embryo Culture. International Journal of Advanced Biotechnology and Research (IJBR), Vol5, Issue3, 2014, p533-538.
[10] Reeves, A. 2001. MicroMeasure: A new computer program for the collection and analysis of cytogenetic data. Genome. 44: 439–443.
[11] Levan A, Fredga K, Sandberg AA. 1964. Nomenclature for centromeric position on chromosomes. Hereditas. 52: 201-220.
[12] Afzal-Rafii, Z. 1980. Chromosome number reports LXVII. Taxon. 29:365–366.
[13] Markova ML, Ivanova PS. 1982. Karyological study of the genus Salvia L. in Bulgaria. Filologija.
[14] Sekovski Z, Jovanovska M. 1983. Chromosome atlas of some Macedonian angiosperms. IV. Ann Fac Biol Univ Skopje. 6:73–86.
[15] Dobea, C, Hahn B and Morawetz W. 1997. Chromosomenzahlen zur Gefässpflanzen-Flora Österreichs. Linzer Biol. Beitr. 29(1): 5–43.
[16] Kiehn M, Vitek E, Dobea C. 2000. Documented chromosome number checklist of Austrian vascular plants. Vienna: Verlag des Naturhistorischen Museums.

Year 2017, Volume: 11 Issue: 2, 33 - 34, 31.08.2017

Uğur Özkan Berk Benlioğlu Yasin Özgen

Abstract

References

[1] Harley RM, Atkins S, Budantsev AL, Cantino PD, Conn BJ, Grayer R and Upson T. 2004. Labiatae. In Flowering Plants· Dicotyledons (pp. 167-275).
[2] Anonymous, 2017a. http://www.bizimbitkiler.org.tr/v2/hiyerarsi.php?c=Salvia. Access date:24.10.2017
[3] Anonymous, 2017b. http://www.theplantlist.org/1.1/browse/A/Lamiaceae/Salvia/. Access date:22.10.2017
[4] Hernandez-Perez M, Rabanal RM, Arias A, De La Torre MC and Rodriquez B. 1999. Athiopi-none an Antibacterial and Cytotoxic Agent from Salvia aethiopis Roots, Pharmaceutical Biology, 37:1, 7-21.
[5] Sheidai M and Alijanpoo B. 2011. Karyotype analysis in some Salvia species (Lamiaceae) of Iran. Cytologia, 76(4), 425-429.
[6] Özkan M. 2006. Karyotype analysis on two endemic Salvia L.(Lamiaceae) species in Turkey. International Journal of Botany, 2(3), 333-335.
[7] Kharazian N. 2011. Karyotypic study of some Salvia (Lamiaceae) species from Iran. Journal of Applied Biological Sciences, 5(3), 21-25.
[8] Martin E, Cetin O, Kahraman A, Celep F and Dogan M. 2011. A cytomorphological study in some taxa of the genus Salvia L.(Lamiaceae).Caryologia, 64(3), 272-287
[9] Benlioglu B and Özgen M. 2014. The Effect Of Different 2,4-Dichlorophenoxyacetic Acid Doses On Chromosomal Structure Of Regenerants In Barley (Hordeum vulgare L.) Embryo Culture. International Journal of Advanced Biotechnology and Research (IJBR), Vol5, Issue3, 2014, p533-538.
[10] Reeves, A. 2001. MicroMeasure: A new computer program for the collection and analysis of cytogenetic data. Genome. 44: 439–443.
[11] Levan A, Fredga K, Sandberg AA. 1964. Nomenclature for centromeric position on chromosomes. Hereditas. 52: 201-220.
[12] Afzal-Rafii, Z. 1980. Chromosome number reports LXVII. Taxon. 29:365–366.
[13] Markova ML, Ivanova PS. 1982. Karyological study of the genus Salvia L. in Bulgaria. Filologija.
[14] Sekovski Z, Jovanovska M. 1983. Chromosome atlas of some Macedonian angiosperms. IV. Ann Fac Biol Univ Skopje. 6:73–86.
[15] Dobea, C, Hahn B and Morawetz W. 1997. Chromosomenzahlen zur Gefässpflanzen-Flora Österreichs. Linzer Biol. Beitr. 29(1): 5–43.
[16] Kiehn M, Vitek E, Dobea C. 2000. Documented chromosome number checklist of Austrian vascular plants. Vienna: Verlag des Naturhistorischen Museums.

There are 16 citations in total.

Details

Primary Language	English
Journal Section	Research Article
Authors	Uğur Özkan Berk Benlioğlu This is me Yasin Özgen This is me
Publication Date	August 31, 2017
Published in Issue	Year 2017 Volume: 11 Issue: 2

Cite

APA	Özkan, U., Benlioğlu, B., & Özgen, Y. (2017). Karyological Studies on Mediterrenean Sage (Salvia aethiopis L.). Journal of Applied Biological Sciences, 11(2), 33-34.
AMA	Özkan U, Benlioğlu B, Özgen Y. Karyological Studies on Mediterrenean Sage (Salvia aethiopis L.). J.appl.biol.sci. August 2017;11(2):33-34.
Chicago	Özkan, Uğur, Berk Benlioğlu, and Yasin Özgen. “Karyological Studies on Mediterrenean Sage (Salvia Aethiopis L.)”. Journal of Applied Biological Sciences 11, no. 2 (August 2017): 33-34.
EndNote	Özkan U, Benlioğlu B, Özgen Y (August 1, 2017) Karyological Studies on Mediterrenean Sage (Salvia aethiopis L.). Journal of Applied Biological Sciences 11 2 33–34.
IEEE	U. Özkan, B. Benlioğlu, and Y. Özgen, “Karyological Studies on Mediterrenean Sage (Salvia aethiopis L.)”, J.appl.biol.sci., vol. 11, no. 2, pp. 33–34, 2017.
ISNAD	Özkan, Uğur et al. “Karyological Studies on Mediterrenean Sage (Salvia Aethiopis L.)”. Journal of Applied Biological Sciences 11/2 (August 2017), 33-34.
JAMA	Özkan U, Benlioğlu B, Özgen Y. Karyological Studies on Mediterrenean Sage (Salvia aethiopis L.). J.appl.biol.sci. 2017;11:33–34.
MLA	Özkan, Uğur et al. “Karyological Studies on Mediterrenean Sage (Salvia Aethiopis L.)”. Journal of Applied Biological Sciences, vol. 11, no. 2, 2017, pp. 33-34.
Vancouver	Özkan U, Benlioğlu B, Özgen Y. Karyological Studies on Mediterrenean Sage (Salvia aethiopis L.). J.appl.biol.sci. 2017;11(2):33-4.