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Male sterility

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Sanjay Kumar
Sanjay Kumar

Male Sterility for hybrid seed production

Science
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Male Sterility Sanjay Kumar Bishnoi Ph. D. ResearchScholar SKRAU, Bikaner
What is Male Sterility???  Male sterility is defined as “the failure of plants to produce functional anthers, pollen, or male gametes .”(Kaul,1988) History:- • First time reported by Kolreuter (1763) in maize. • Beedle (1932) and Roger (1953) - CGMS in maize • Rhodes (1933) - CMS in maize • Jones and Davis (1944) - CMS in onion
Male fertile and sterile lines Anther is full of pollens (deep purple/blue after iodine stain) Anther is withered, and has no pollen in it Male Fertile Male Sterile
Some important terms A-line or Male Sterile line B-line or maintainer line R-line or restorer line msms rr msms Rr msms F/S RR msms S msms F
Classification of Male sterility 1. Genetic male sterility (GMS) i) Temperature sensitive genetic male sterility (TGMS) ii) Photoperiod sensitive genetic male sterility (PGMS) iii) Transgenic male sterility (TrGMS) 2. Cytoplasmic male sterility (CMS) 3. Cytoplasmic genetic male sterility (CGMS) 4. Chemically induced male sterility (CIMS)
1. GENETIC MALE STERILITY • Governed by a single recessive gene ‘ms’. • The ratio of sterile and fertile plants is 1:1 • This method is used for both seed and vegetatively propagated crops for hybrid seed production. • It is influenced by environment factors. ms ms × Ms Ms (male sterile) (Male fertile) F1 Ms ms (male fertile) F2 1 Ms Ms, 2 Ms ms, 1 ms ms 3 Male fertile 1 Male sterile Ratio 3:1
i) Temperature sensitive genetic male sterility (TGMS) In this type of GMS complete male sterility is produced by the ms gene at higher temperature 23.3⁰C. ii) Photoperiod sensitive genetic male sterility (PGMS) In this type of GMS complete male sterility is produced by the ms gene between 23-29⁰C temperature at higher photoperiod > 14 hours (long day). >14 hours = Plants male sterile < 14 hours= Plants male fertile iii) Transgenic male sterility (TrGMS) A gene introduced into the genome of an organism by recombinant DNA technology or genetic engineering is called transgene. Eg. Barnase/ Barstar system (Bar gene of Bacillus amyloliquefaciens) Barnase = Male sterile Barstar = Male fertile Application of Genetic Male Sterility in Plant Breeding Applicable in production of hybrids in both vegetatively propagated crops and crops important for fruit or seed yield. eg. Castor = USA Pigeon pea = India (variety released- ICPH-8, 1991)
2. CYTOPLASMIC MALE STERILITY • Controlled by plasma gene contributed by female parent. (Mitochondrial DNA, Cp DNA and Plasmid) • This method is using only in vegetative propagated crops. • It is highly stable i.e. not influenced by environmental factors. Genotypes of CMS line – With normal fertile cytoplasm (B – line; fertile) – With sterile cytoplasm (A – line; sterile) msms F R / r msms S R / r
Sterility maintenance msms Smsms F R / r A – line (sterile) B – line (fertile) All male sterile progenies msms S R / r X R / r Application of Cytoplasmic Male Sterility in Plant Breeding Production of hybrids in ornamental crops and vegetatively propagated crops, where grain or fruit is not the economic product. Examples – Ornamental plants, potato, onion etc.
3. CYTOPLASMIC – GENETIC MALE STERILITY • Controlled by induction of both nuclear and plasma genes. • First reported by Jones & Esweller (1937) in onion. • 1944 – Jones first found ‘S’ type from USDA stock and Roger in Texas found ‘T’ type • The fertility restorer gene Rf, is dominant. A-line or Male Sterile line B-line or maintainer line R-line or restorer line
Male Sterility Maintenance Fertility Restoration msms S rr msms S Rr msms S RR msms S rr msms F rr msms S rr msms F RR Male sterile (A – line) All fertile progenies A – line (sterile) B – line (Fertile) All male sterile progenies or Male fertile (R – line) X X
Application of Cytoplasmic-Genetic Male Sterility in Plant Breeding • CGMS is most popular MS system for commercial utilization due to inherent disadvantages of GMS and CMS. • It is used in commercial production of hybrid seeds maize, sorghum, bajra, sunflower, rice and wheat.
4. Chemically induced male sterility (CIMS) Many chemicals affect the function of male reproductive organs in plants, these compounds called chemical hybridizing agents (CHA) or male gametocide.
Crop Cytoplasm Restore genes Remarks 1. Maize (Z.m.) Cms – C Cms – S Cms – T Rf4 Rf3 Rf1, Rf2 Spontaneous reversion Commercially used • Most commercially used • Reduce yield (2-4%) • Susc. To southern corn blight & sheath blight Sorghum (S.bicolor) Milo (S.bicolor) MSc (one) Commercially used Bajra (Penmisteum americanum) Tifton (P. amc.) Ludhiana (P. anc) A1 A2 Commercially used Little used  Most well studied CMS system in crop plants  A number of cytoplasms known in maize : - Texas (T) - USDA (S) - Charrua (C) - Normal (N) - NA (North America)

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Male sterility

  • 1. Male Sterility Sanjay Kumar Bishnoi Ph. D. ResearchScholar SKRAU, Bikaner
  • 2. What is Male Sterility???  Male sterility is defined as “the failure of plants to produce functional anthers, pollen, or male gametes .”(Kaul,1988) History:- • First time reported by Kolreuter (1763) in maize. • Beedle (1932) and Roger (1953) - CGMS in maize • Rhodes (1933) - CMS in maize • Jones and Davis (1944) - CMS in onion
  • 3.
  • 4. Male fertile and sterile lines Anther is full of pollens (deep purple/blue after iodine stain) Anther is withered, and has no pollen in it Male Fertile Male Sterile
  • 5. Some important terms A-line or Male Sterile line B-line or maintainer line R-line or restorer line msms rr msms Rr msms F/S RR msms S msms F
  • 6. Classification of Male sterility 1. Genetic male sterility (GMS) i) Temperature sensitive genetic male sterility (TGMS) ii) Photoperiod sensitive genetic male sterility (PGMS) iii) Transgenic male sterility (TrGMS) 2. Cytoplasmic male sterility (CMS) 3. Cytoplasmic genetic male sterility (CGMS) 4. Chemically induced male sterility (CIMS)
  • 7. 1. GENETIC MALE STERILITY • Governed by a single recessive gene ‘ms’. • The ratio of sterile and fertile plants is 1:1 • This method is used for both seed and vegetatively propagated crops for hybrid seed production. • It is influenced by environment factors. ms ms × Ms Ms (male sterile) (Male fertile) F1 Ms ms (male fertile) F2 1 Ms Ms, 2 Ms ms, 1 ms ms 3 Male fertile 1 Male sterile Ratio 3:1
  • 8. i) Temperature sensitive genetic male sterility (TGMS) In this type of GMS complete male sterility is produced by the ms gene at higher temperature 23.3⁰C. ii) Photoperiod sensitive genetic male sterility (PGMS) In this type of GMS complete male sterility is produced by the ms gene between 23-29⁰C temperature at higher photoperiod > 14 hours (long day). >14 hours = Plants male sterile < 14 hours= Plants male fertile iii) Transgenic male sterility (TrGMS) A gene introduced into the genome of an organism by recombinant DNA technology or genetic engineering is called transgene. Eg. Barnase/ Barstar system (Bar gene of Bacillus amyloliquefaciens) Barnase = Male sterile Barstar = Male fertile Application of Genetic Male Sterility in Plant Breeding Applicable in production of hybrids in both vegetatively propagated crops and crops important for fruit or seed yield. eg. Castor = USA Pigeon pea = India (variety released- ICPH-8, 1991)
  • 9. 2. CYTOPLASMIC MALE STERILITY • Controlled by plasma gene contributed by female parent. (Mitochondrial DNA, Cp DNA and Plasmid) • This method is using only in vegetative propagated crops. • It is highly stable i.e. not influenced by environmental factors. Genotypes of CMS line – With normal fertile cytoplasm (B – line; fertile) – With sterile cytoplasm (A – line; sterile) msms F R / r msms S R / r
  • 10. Sterility maintenance msms Smsms F R / r A – line (sterile) B – line (fertile) All male sterile progenies msms S R / r X R / r Application of Cytoplasmic Male Sterility in Plant Breeding Production of hybrids in ornamental crops and vegetatively propagated crops, where grain or fruit is not the economic product. Examples – Ornamental plants, potato, onion etc.
  • 11. 3. CYTOPLASMIC – GENETIC MALE STERILITY • Controlled by induction of both nuclear and plasma genes. • First reported by Jones & Esweller (1937) in onion. • 1944 – Jones first found ‘S’ type from USDA stock and Roger in Texas found ‘T’ type • The fertility restorer gene Rf, is dominant. A-line or Male Sterile line B-line or maintainer line R-line or restorer line
  • 12. Male Sterility Maintenance Fertility Restoration msms S rr msms S Rr msms S RR msms S rr msms F rr msms S rr msms F RR Male sterile (A – line) All fertile progenies A – line (sterile) B – line (Fertile) All male sterile progenies or Male fertile (R – line) X X
  • 13. Application of Cytoplasmic-Genetic Male Sterility in Plant Breeding • CGMS is most popular MS system for commercial utilization due to inherent disadvantages of GMS and CMS. • It is used in commercial production of hybrid seeds maize, sorghum, bajra, sunflower, rice and wheat.
  • 14. 4. Chemically induced male sterility (CIMS) Many chemicals affect the function of male reproductive organs in plants, these compounds called chemical hybridizing agents (CHA) or male gametocide.
  • 15. Crop Cytoplasm Restore genes Remarks 1. Maize (Z.m.) Cms – C Cms – S Cms – T Rf4 Rf3 Rf1, Rf2 Spontaneous reversion Commercially used • Most commercially used • Reduce yield (2-4%) • Susc. To southern corn blight & sheath blight Sorghum (S.bicolor) Milo (S.bicolor) MSc (one) Commercially used Bajra (Penmisteum americanum) Tifton (P. amc.) Ludhiana (P. anc) A1 A2 Commercially used Little used  Most well studied CMS system in crop plants  A number of cytoplasms known in maize : - Texas (T) - USDA (S) - Charrua (C) - Normal (N) - NA (North America)