Summary
Plants were regenerated from callus cultures of maize inbred W182BN with the S(USDA) type of cytoplasmic male sterility (cms). Some regenerates from 16 of 18 separate cultures had fertile tassels. Many other regenerates, whose fertility could not be scored accurately because of abnormal plant morphology, produced fertile progeny after pollination with N cytoplasm W182BN. Revertant plants and/or progeny were obtained from all 18 cultures, which included the CA, D, LBN, and S sources of cmsS. More revertants were recovered from cultures maintained as callus for 12 months than from 3–4 month old cultures. Several types of evidence (absence of segregation for fertility after selfing or pollination of revertants with standard W182BN, pollen viability counts, failure of revertants to restore sterile cmsS lines to fertility, mitochondrial DNA analyses) indicated that the reversion to fertility involved cytoplasmic rather than nuclear alterations. All revertants examined lacked the S1 and S2 plasmid-like DNAs characteristic of the mitochondrial genome of sterile cmsS lines. Most callus cultures lost S1 and S2 after 13–20 months in vitro. No revertants were seen among thousands of W182BN cmsS plants grown from seed in the field or among plants from tissue cultures of W182BN with the C or T types of cms. The cytoplasmic revertants recovered from culture may be useful for the molecular analysis of cmsS.
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References
Beckett JB (1971) Classification of male-sterile cytoplasms in maize (Zea mays L.). Crop sci 11:724–727
Boodley JW, Sheldrake R Jr (1973) Cornell peat lite mixes for commercial plant growing. NY State Coll Agric Life sci Ext Bull 43
Brettell RIS, Goddard BYD, Ingram DS (1979) Selection of Tms-cytoplasm maize tissue cultures resistant to Drechslera maydis T-toxin. Maydica 24:203–213
Brettell RIS, Thomas E, Ingram DS (1980) Reversion of Texas male-sterile cytoplasm maize in culture to give fertile T-toxin resistant plants. Theor Appl Genet 58:55–58
Chourey PS, Kemble RJ (1982) Transposition event in tissue cultured cells of maize. In: Fujiwara A (ed) Plant tissue culture 1982. Jpn Assoc Plant Tissue Cult, Tokyo, pp 425–426
Chu CC, Wang CC, Sun CS, Hsu C, Yin KC, Chu CY, Bi FY (1975) Establishment of an efficient medium for anther culture of rice through comparative experiments on the nitrogen sources. Sci Sin 18:659–668
Earle ED, Gracen VE (1985) Somaclonal variation in progeny of plants from corn tissue cultures. In: Henke RR, Hughes KW, Constantin MJ, Hollaender A (eds) Tissue culture in forestry and agriculture. Plenum, New York, pp 139–152
Escote LJ, Gabay-Laughnan SJ, Laughnan JR (1985) Cytoplasmic reversion to fertility in cmsS maize need not involve loss of linear mitochondrial plasmids. Plasmid 14:264–267
Evans DA, Sharp WR (1983) Single gene mutations in tomato plants regenerated from tissue culture. Science 221:949–951
Gabay-Laughnan SJ, Laughnan JR (1983) Characteristics of low-frequency male-fertile revenants in S male-sterile inbred lines of maize. Maydica 28:251–263
Gengenbach BG, Green CE, Donovan CE (1977) Inheritance of selected pathotoxin reistance in maize plants regenerated from cell cultures. Proc Natl Acad sci USA 74:5113–5117
Gengenbach BG, Connelly JA, Pring DR, Conde MF (1981) Mitochondrial DNA variation in maize plants regenerated during tissue culture selection. Theor Appl Genet 59:161–167
Gracen VE (1982) Types and availability of male sterile cytoplasms. Sheridan WF (ed) Maize for biological research. Plant Mol Biol Assoc, Charlottesville VA, pp 221–224
Kemble RJ, Bedbrook JR (1979) A rapid assay for detecting male-sterile maize lines possessing “S”-type cytoplasm. Maydica 24:175–180
Kemble RJ, Mans RJ (1983) Examination of the mitochondrial genome of revertant progeny from cmsS maize with clones S-1 and S-2 hybridization probes. J Mol Appl Genet 2: 161–171
Kemble RJ, Shepard JP (1984) Cytoplasmic DNA variation in a potato protoclonal population. Theor Appl Genet 69: 211–216
Kemble RJ, Flavell RB, Brettell RIS (1982) Mitochondrial DNA analyses of fertile and sterile maize plants derived from tissue culture with the Texas male sterile cytoplasm. Theor Appl Genet 62:213–217
Larkin PJ, Scowcroft WR (1981) Somaclonal variation — A novel source of variability from cell cultures for crop improvement. Theor Appl Genet 60:197–214
Laughnan JR, Gabay-Laughnan SJ (1983) Cytoplasmic male sterility in maize. Annu Rev Genet 17:27–48
Laughnan JR, Gabay-Laughnan SJ, Carlson JE (1981) Characteristics of cmsS reversion to male fertility in maize. Stadler Genet Symp 13:93–114
Levings CS III, Kim BD, Pring DR, Conde MF, Mans RJ, Laughnan JR, Gabay-Laughnan SJ (1980) Cytoplasmic reversion of cmsS in maize: association with a transpositional event. Science 209:1021–1023
Maliga P (1984) Isolation and characterization of mutants in plant cell culture. Annu Rev Plant Physiol 35:510–542
McNay JW, Chourey PS, Pring DR (1984) Molecular analysis of genome stability of mitochondrial DNA in tissue cultured cells of maize. Theor Appl Genet 67:433–437
Murashige T, Skoog F (1962) A revised medium for rapid growth and bioassays with tobacco tissue cultures. Physiol Plant 15:473–497
Pring DR, Levings CS III (1978) Heterogeneity of maize cytoplasmic genomes among male-sterile cytoplasms. Genetics 89:121–136
Pring DR, Levings CS III, Hu WWL, Timothy DH (1977) Unique DNA associated with mitochondria in the “S” type cytoplasm of male-sterile maize. Proc Natl Acad sci USA 74:2904–2908
Schardl CL, Lonsdale DM, Pring DR, Rose KR (1984) Linearization of maize mitochondrial chromosomes by recombination with linear episomes. Nature 310:292–296
Schardl CL, Pring DR, Lonsdale DM (1985) Mitochondrial DNA rearrangements associated with fertile revertants of S-type male-sterile maize. Cell 43:361–368
Sisco PH, Garcia-Arenal F, Zaitlin M, Earle ED, Gracen VE (1984) LBN, a male-sterile cytoplasm of maize, contains two double-stranded RNAs. Plant sci Lett 34:127–134
Sisco PH, Gracen VE, Everett HL, Earle ED, Pring DR, McNay JW, Levings CS III (1985) Differences in fertility restoration and mitochondrial nucleic acids distinguish at least five subgroups among cmsS cytoplasms of maize (Zea mays L.). Theor Appl Genet 71:5–15
Umbeck PF, Gengenbach BG (1983) Reversion of male-sterile T-cytoplasm maize to male fertility in tissue culture. Crop sci 23:584–588
Wilson AJ, Chourey PS, Sharpe DZ (1985) Protoclones of Sorghum bicolor with unusually high mitochondrial DNA variation. In: Henke RR, Hughes KW, Constantin MJ, Hollaender A (eds) Tissue culture in forestry and agriculture. Plenum, New York, pp 368–369
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Earle, E.D., Gracen, V.E., Best, V.M. et al. Fertile revertants from S-type male-sterile maize grown in vitro. Theoret. Appl. Genetics 74, 601–609 (1987). https://doi.org/10.1007/BF00288859
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DOI: https://doi.org/10.1007/BF00288859