Yıl 2023,
Cilt: 9 Sayı: 1, 64 - 77, 01.02.2023
Pravin Kumar Sharma
Arif Bağcı
,
Preeti Preeti
Kaynakça
- Aghora TS, (1985). The heterosis and combining ability
studies in onion (Allium cepa L.) using line×tester
analysis. M.Sc.Thesis, University of Agricultural
Sciences, Dharwad, India.
- Aghora TS and Pathak CS, (1991). Heterosis and
combining ability in a line x tester cross of onion
(Allium cepa L.). Veg. Sci., 18:53-58
- Agricultural Statistics at a Glance, (2021). Government
of India Ministry of Agriculture & Farmers
Welfare Department of Agriculture & Farmers
Welfare Directorate of Economics & Statistics,
p-94.
- Ahmad, R, Hassand MU, Akhtar GB, Saeed S,
Khan SA, Shah MKN, and Khan N, (2020).
Identification and characterization of important
sterile and maintainer lines from various
genotypes for advanced breeding programmes
of onion (Allium cepa L). Plant Breeding, 139,
988–995. https://doi.org/10.1111/pbr.12844
- Andrasfalvy A, (1971). Data on the evaluation of onion
varieties and hybrids for one year cultivation.
Zoldsegtermesztes, 5: 31-46 (cf. Plant Breeding
Abstract, 44: 4069).
- Banga O and Peitet J, (1958). Breeding male sterile line
of Dutch onion varieties as a preliminary to the
breeding of hybrid varieties. Euphytica, 7:21-30.
Berninger E, (1965). Contribution al’etude de la
sterilite de male de l’oignon (Allium cepa L.).
Ann. Ame´lior. Plant, 15: 183–99.
- Cho KS, Hong SY, Kwon YS and Woo JG, (2005).
Selection of maintainer line in open pollinated
onion (Allium cepa L. cv. “Manchuhwang”) using
SCAR marker linked to cytoplasmic male sterile
factor. Korean Journal of Breeding, 37(3): 133-
137.
- Davis EW, (1957). The Distribution of male sterility
gene in onion. Proceedings of American Society
for Horticultural Science, 70: 316-318.
- Dehghani R, Abbasi Z, Talebi M, Shahmansouri E and
Tabatabaei, Sayed BE, (2021). Identification
of male sterile (T, S) of fertility (N) cytoplasm
by PCR-based molecular markers to access
maintainer lines in onion. Journal of Horticulture
and Postharvest Research. 4(3), 277-288.
- Divarkar DS, (2001). Heterosis and combining ability
studies for bulb yield, its components and
quality parameters in onion. M.Sc. (Agri) thesis,
University of Agricultural Sciences, Dharwad.
- Doruchowsk RW, (1986). Variability, heterosis,
inheritance, heritability and inter dependence of
some economic characters in the parental forms
of F
1 and F2 generations in onion (Allium cepa
L.). Plant Breeding Abstract, 156:9135.
- Doruchowski RW, (1971). Studies on the combining
ability of parental forms of heterotic hybrids of
onion (Allium cepa L.) for breeding of Polish
conditions. Biuletyn Warzywniczy, 12: 131-141.
(cf. Plant Breeding Abstract, 43: 8267).
- Dyki B, (1973). Cytological investigation of male
sterile onion (Allium cepa L.) plants of varieties
Wolska and Rawska. Biuletyn Warzwniczy
Poland, 14: 139-148.
- Engelke T, Terefe D and Tatlioglu T, (2003). A PCRbased marker system monitoring CMS-(S), MS-
(T) and (N)-cytoplasm in the onion (Allium cepa
L.). Theor. Appl. Genet. 107: 162-167. https://
doi.org/10.1007/s00122-003-1230-3.
- Ershov II and Vorobeva AA, (1979). Experimental
production of first-generation heterotic hybrids
using cytoplasmic male sterility (CMS) in
onion. Referativnyi Zhurnal, 9: 27- 37. (cf. Plant
Breeding Abstract, 51: 5558).
- Ferreira RR, Santos CAF and Oliveira VR, (2017).
Fertility restoration locus and cytoplasm types in
onion. Genetics and Molecular Research, 16(3),
1-12. DOI: 10.4238/gmr16039766
- Gazendam I, Greyling Maria M and Laurie SM,
(2018). The Application of Molecular Markers
to Accelerate the Recovery of Cytoplasmic and
Nuclear Male Sterility in South African Onion
(Allium cepa L.) Hybrid Parental Lines. Journal
of Agricultural Science; 10(7): 95-109.
- Genejdi GS, (1970). Some biochemical properties of
cultivare and hybrids of onion (Allium cepa L.) in
conection with heterosis. Plant breeding abstract,
41: 9034.
- Gikalo EA, (1972). Study of cytoplasmic sterility
in onion under conditions at the Maikop
Experimental Station. 5: 50-56
- Gowda RV, (1988). Studies on the genetics of yield
and quality characters in bulb and seed crop of
onion (Allium cepa L.). Ph.D. thesis, University
of Agriculture Science, Bangalore, India.
- Haishan Z, Zhengan Y and Zhang H, (2006). Advances
in research on cytoplasmic male sterility in onion
(Allium cepa L.) and its applications. Journal of
Yunnan Agriculture University, 21(2):169-171.
- Havey MJ, (1993). A putative donor of S-cytoplasm and
its distribution among open pollinated population
of onion. Theoretical and Applied Genetics, 86:
128-134.
- Havey MJ, (2000). Diversity among male sterility
inducing and male fertile cytoplasms of onion.
Theoretical and Applied genetics, 101(5-6): 778-
782
- Havey MJ, (2004). The use of cytoplasmic male
sterility for hybrid seed production. Molecular
Biology and Biotechnology of Plant Organelles,
pp 623-634.
- Havey MJ, (2006). Diversity among male-sterilityinducing and male fertile cytoplasms of onion.
Theoretical and Applied Genetics. 101(5): 778-
782.
- Havey MJ and Kim S, (2021). Molecular Marker
Characterization of Commercially Used
Cytoplasmic Male Sterilities in Onion. J. Amer.
Soc. Hort. Sci. 146(5):351–355. 2021. https://
doi.org/10.21273/JASHS05083-21
- Holford P, Croft JH and Newbury HJ, (1991a).
Difference between, and possible origin of, the
cytoplasms found in fertile and male-sterile
onions (Allium cepa L.). Theoretical and Applied
Genetics, 82: 737-744.
- Holford, P., Croft, J.H. and Newbury, H.J. (1991b).
Structural studies of microsporogenesis in
fertile and male-sterile onions (Allium cepa L.)
containing the cms-S cytoplasm. Theoretical and
Applied Genetics, 82: 745-755.
- Hosfield, G.L., Vest, G and Peterson, C.E. (1977).
Heterosis and combining abilty in diallel cross
of onions. Journal of American society for
Horticultural Science, 102: 355-360
- Jingfan SJ, (2009). Identification and analysis of
cytoplasmic male sterility in onion (Allium
cepa L.) origin from Chinese cultivars. Acta
Hortculture, 36(5): 723-726.
- Jones HA and Clarke AE, (1943). Inheritance of
male sterility in the onion and production of
hybrid seed. Proceeding of America Society for
Horticultural Science, 43: 189-194.
- Jones HA and Mann LK, (1963). Onions and Their
Allies. Leonard Hill Book Co., London. p. 286.
- Joshi HC and Tandon JP, (1976).Heterosis for yield
and its genetic basis in onion. Indian Journal of
Agriculture Science, 46(2): 88- 92
- Kazakova AA and Yakovlev GV, (1973). Expression
of heterosis in onion hybrid produced on male
sterility basis. Proceeding of Botanical Genetics,
49(2): 268-280.
- Khaisin MF, (1988). Hybrid seed production of
onion using cytoplasmic male sterility (CMS).
Referativnyi Zhurnal, 3(65): 260.
- Kim B and Kim S, (2019) Identification of a variant
of CMS-T cytoplasm and development of high
resolution melting markers for distinguishing
cytoplasm types and genotyping a restorerof-fertility locus in onion (Allium cepa L.).
Euphytica, 215:164
- Kim B, Kim C and Kim S, (2019) Inheritance of
fertility restoration of male sterility conferred
by cytotype Y and identification of instability of
male fertility phenotypes in onion (Allium cepa
L.). J Hort Sci Bio technol, 94:341-348.
- Kim S, (2014). A codominant molecular marker in
linkage disequilibrium with a restorer-of-fertility
gene Ms and its application in reevaluation of
inheritance of fertility restoration in onions. Mol.
Breed. 34: 769-778. https://doi. org/10.1007/
s11032-014-0073-8.
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markers. Euphytica, 217:19
Development of Onion Hybrids using Cytoplasmic Genetic Male Sterility
Yıl 2023,
Cilt: 9 Sayı: 1, 64 - 77, 01.02.2023
Pravin Kumar Sharma
Arif Bağcı
,
Preeti Preeti
Öz
Onion (Allium cepa) is an important vegetable/spice crop worldwide. It is an open pollinated crop; therefore, development
of onion hybrids is most sought out option to boost onion productivity. Use of cytoplasmic genetic male sterility (CGMS)
is most pragmatic method ofonion hybrid development. This includes use of three lines, i.e., cytoplasmic male sterile line
(A), its isogenic fertile maintainer line (B) and fertility restorer line (R). The conventional method of hybrid development
is less efficient as compared to molecular marker assisted methods for identification of S, T, N cytoplasm, maintainer lines
and fertility restorer genes with high heterosis. Various molecular marker systems have been established for commercial
hybrid seed production. This review examines the development and identification of male sterile and its maintainer lines
as well as restorer lines for hybrid seed production using conventional and molecular marker assisted methods.
Kaynakça
- Aghora TS, (1985). The heterosis and combining ability
studies in onion (Allium cepa L.) using line×tester
analysis. M.Sc.Thesis, University of Agricultural
Sciences, Dharwad, India.
- Aghora TS and Pathak CS, (1991). Heterosis and
combining ability in a line x tester cross of onion
(Allium cepa L.). Veg. Sci., 18:53-58
- Agricultural Statistics at a Glance, (2021). Government
of India Ministry of Agriculture & Farmers
Welfare Department of Agriculture & Farmers
Welfare Directorate of Economics & Statistics,
p-94.
- Ahmad, R, Hassand MU, Akhtar GB, Saeed S,
Khan SA, Shah MKN, and Khan N, (2020).
Identification and characterization of important
sterile and maintainer lines from various
genotypes for advanced breeding programmes
of onion (Allium cepa L). Plant Breeding, 139,
988–995. https://doi.org/10.1111/pbr.12844
- Andrasfalvy A, (1971). Data on the evaluation of onion
varieties and hybrids for one year cultivation.
Zoldsegtermesztes, 5: 31-46 (cf. Plant Breeding
Abstract, 44: 4069).
- Banga O and Peitet J, (1958). Breeding male sterile line
of Dutch onion varieties as a preliminary to the
breeding of hybrid varieties. Euphytica, 7:21-30.
Berninger E, (1965). Contribution al’etude de la
sterilite de male de l’oignon (Allium cepa L.).
Ann. Ame´lior. Plant, 15: 183–99.
- Cho KS, Hong SY, Kwon YS and Woo JG, (2005).
Selection of maintainer line in open pollinated
onion (Allium cepa L. cv. “Manchuhwang”) using
SCAR marker linked to cytoplasmic male sterile
factor. Korean Journal of Breeding, 37(3): 133-
137.
- Davis EW, (1957). The Distribution of male sterility
gene in onion. Proceedings of American Society
for Horticultural Science, 70: 316-318.
- Dehghani R, Abbasi Z, Talebi M, Shahmansouri E and
Tabatabaei, Sayed BE, (2021). Identification
of male sterile (T, S) of fertility (N) cytoplasm
by PCR-based molecular markers to access
maintainer lines in onion. Journal of Horticulture
and Postharvest Research. 4(3), 277-288.
- Divarkar DS, (2001). Heterosis and combining ability
studies for bulb yield, its components and
quality parameters in onion. M.Sc. (Agri) thesis,
University of Agricultural Sciences, Dharwad.
- Doruchowsk RW, (1986). Variability, heterosis,
inheritance, heritability and inter dependence of
some economic characters in the parental forms
of F
1 and F2 generations in onion (Allium cepa
L.). Plant Breeding Abstract, 156:9135.
- Doruchowski RW, (1971). Studies on the combining
ability of parental forms of heterotic hybrids of
onion (Allium cepa L.) for breeding of Polish
conditions. Biuletyn Warzywniczy, 12: 131-141.
(cf. Plant Breeding Abstract, 43: 8267).
- Dyki B, (1973). Cytological investigation of male
sterile onion (Allium cepa L.) plants of varieties
Wolska and Rawska. Biuletyn Warzwniczy
Poland, 14: 139-148.
- Engelke T, Terefe D and Tatlioglu T, (2003). A PCRbased marker system monitoring CMS-(S), MS-
(T) and (N)-cytoplasm in the onion (Allium cepa
L.). Theor. Appl. Genet. 107: 162-167. https://
doi.org/10.1007/s00122-003-1230-3.
- Ershov II and Vorobeva AA, (1979). Experimental
production of first-generation heterotic hybrids
using cytoplasmic male sterility (CMS) in
onion. Referativnyi Zhurnal, 9: 27- 37. (cf. Plant
Breeding Abstract, 51: 5558).
- Ferreira RR, Santos CAF and Oliveira VR, (2017).
Fertility restoration locus and cytoplasm types in
onion. Genetics and Molecular Research, 16(3),
1-12. DOI: 10.4238/gmr16039766
- Gazendam I, Greyling Maria M and Laurie SM,
(2018). The Application of Molecular Markers
to Accelerate the Recovery of Cytoplasmic and
Nuclear Male Sterility in South African Onion
(Allium cepa L.) Hybrid Parental Lines. Journal
of Agricultural Science; 10(7): 95-109.
- Genejdi GS, (1970). Some biochemical properties of
cultivare and hybrids of onion (Allium cepa L.) in
conection with heterosis. Plant breeding abstract,
41: 9034.
- Gikalo EA, (1972). Study of cytoplasmic sterility
in onion under conditions at the Maikop
Experimental Station. 5: 50-56
- Gowda RV, (1988). Studies on the genetics of yield
and quality characters in bulb and seed crop of
onion (Allium cepa L.). Ph.D. thesis, University
of Agriculture Science, Bangalore, India.
- Haishan Z, Zhengan Y and Zhang H, (2006). Advances
in research on cytoplasmic male sterility in onion
(Allium cepa L.) and its applications. Journal of
Yunnan Agriculture University, 21(2):169-171.
- Havey MJ, (1993). A putative donor of S-cytoplasm and
its distribution among open pollinated population
of onion. Theoretical and Applied Genetics, 86:
128-134.
- Havey MJ, (2000). Diversity among male sterility
inducing and male fertile cytoplasms of onion.
Theoretical and Applied genetics, 101(5-6): 778-
782
- Havey MJ, (2004). The use of cytoplasmic male
sterility for hybrid seed production. Molecular
Biology and Biotechnology of Plant Organelles,
pp 623-634.
- Havey MJ, (2006). Diversity among male-sterilityinducing and male fertile cytoplasms of onion.
Theoretical and Applied Genetics. 101(5): 778-
782.
- Havey MJ and Kim S, (2021). Molecular Marker
Characterization of Commercially Used
Cytoplasmic Male Sterilities in Onion. J. Amer.
Soc. Hort. Sci. 146(5):351–355. 2021. https://
doi.org/10.21273/JASHS05083-21
- Holford P, Croft JH and Newbury HJ, (1991a).
Difference between, and possible origin of, the
cytoplasms found in fertile and male-sterile
onions (Allium cepa L.). Theoretical and Applied
Genetics, 82: 737-744.
- Holford, P., Croft, J.H. and Newbury, H.J. (1991b).
Structural studies of microsporogenesis in
fertile and male-sterile onions (Allium cepa L.)
containing the cms-S cytoplasm. Theoretical and
Applied Genetics, 82: 745-755.
- Hosfield, G.L., Vest, G and Peterson, C.E. (1977).
Heterosis and combining abilty in diallel cross
of onions. Journal of American society for
Horticultural Science, 102: 355-360
- Jingfan SJ, (2009). Identification and analysis of
cytoplasmic male sterility in onion (Allium
cepa L.) origin from Chinese cultivars. Acta
Hortculture, 36(5): 723-726.
- Jones HA and Clarke AE, (1943). Inheritance of
male sterility in the onion and production of
hybrid seed. Proceeding of America Society for
Horticultural Science, 43: 189-194.
- Jones HA and Mann LK, (1963). Onions and Their
Allies. Leonard Hill Book Co., London. p. 286.
- Joshi HC and Tandon JP, (1976).Heterosis for yield
and its genetic basis in onion. Indian Journal of
Agriculture Science, 46(2): 88- 92
- Kazakova AA and Yakovlev GV, (1973). Expression
of heterosis in onion hybrid produced on male
sterility basis. Proceeding of Botanical Genetics,
49(2): 268-280.
- Khaisin MF, (1988). Hybrid seed production of
onion using cytoplasmic male sterility (CMS).
Referativnyi Zhurnal, 3(65): 260.
- Kim B and Kim S, (2019) Identification of a variant
of CMS-T cytoplasm and development of high
resolution melting markers for distinguishing
cytoplasm types and genotyping a restorerof-fertility locus in onion (Allium cepa L.).
Euphytica, 215:164
- Kim B, Kim C and Kim S, (2019) Inheritance of
fertility restoration of male sterility conferred
by cytotype Y and identification of instability of
male fertility phenotypes in onion (Allium cepa
L.). J Hort Sci Bio technol, 94:341-348.
- Kim S, (2014). A codominant molecular marker in
linkage disequilibrium with a restorer-of-fertility
gene Ms and its application in reevaluation of
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