Breaking breeding barriers in Lycopersicon. 2. Breakdown of self-incompatibility in L. peruvianum (L.) Mill.

Hogenboom, N. G.

doi:10.1007/bf00036763

Cited by 32 publications

(13 citation statements)

References 44 publications

(39 reference statements)

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“…Thus the Phlox response is not unexpected. In moderately self-fertile plants, inbreeding often reduces the level of selffertility (Medicago sativa, Wilsie & Skory, 1948;Wilsie, 1958;Melton, 1970;Viciafaba, Drayner, 1956, 1959 Holden & Bond, 1960; Lycopersicon peruvianum, Hogenboom, 1972;Ranunculus acris, Osterbye, 1986). parent values varied from zero to 24 per cent; the mean was 9.17 per cent.…”

Section: Ytlementioning

confidence: 99%

Effect of inbreeding on autogamy in Phlox

Levin

1995

Heredity

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The effect of inbreeding on autogamy was studied in two greenhouse-grown populations of the weakly self-compatible Phlox drummondii. Sixty-one plants from a Lytle, TX. population and 20 plants from a Bastrop, TX. population were self-fertilized to generate an equivalent number of 10-plant self families. The mean level of autogamy in the Lytle progeny was 2.49 per cent vs. 1.03 per cent in their parents. The mean level of autogamy in the Bastrop progeny was 13.35 per cent vs.5.95 per cent in their parents. Autogamy within families was continuous and often broadly distributed, suggesting that it was influenced by a segregating polygenic system which modifies Sgene expression. The heritability of autogamy in the Bastrop population was 0.45, as estimated from the regression of offspring on mid-parent values.

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Section: Ytlementioning

confidence: 99%

Effect of inbreeding on autogamy in Phlox

Levin

1995

Heredity

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“…Extensive studies with radiations and chemical mutagens have shown that none generated new S-alleles (Lewis, 1949(Lewis, , 1951Lewis and Crowe 1954;Pandey, 1956Pandey, , 1965Brewbaker and Natarajan 1960;de Nettancourt and Ecochard, 1968;Hoffman, 1971;de Nettancourt, 1974, 1975), thus suggesting that new 5-specificities probably do not result from point mutations t the S-locus (see Sree Ramulu, 1980). Inbreeding, the only method which so far has generated new S-alleles ldads to some processes which result under favourable conditions in the generation of new 5-specificities (Denward, 1963;de Nettancourt and Ecochard, 1969;de Nettancourt et a!., 1971;Pandey, 1970aPandey, , 1972Pandey, , 1977Hogenboom, 1972;Anderson et al, 1974;Sree Ramulu, 1982). The S-alleles are stable under the conditions of a relatively high degree of heterozygosity and the S-allele dependent polygenic system is presumably drastically modified by inbreeding.…”

Section: Discussionmentioning

confidence: 99%

Genetic instability at the S-locus of Lycopersicon peruvianum plants regenerated from in vitro culture of anthers: Generation of new S-specificities and S-allele reversions

Ramulu¹

1982

Heredity

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SUMMARYGenetic analyses were made of plants regenerated from in vitro cultures of anthers and stem internodes in four different self-incompatible diploid genotypes of Lycopersicon peruvianum. Altogether 9 diploids, 15 tetraploids and 3 cytochimeric plants regenerated from stem internode cultures and 35 diploids, 10 tetraploids and 9 cytochimeras derived from anther culture, were analysed.The plants regenerated from stem internode cultures had no alterations at the S-locus, whereas a high proportion of anther culture-derived regenerants carried sexually heritable changes, namely new S-specificities and S-allele reversions, the reverted S-allele showing a switch from gametophytic to sporophytic expression.

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“…Segregations were tested with the aid of binomial probability paper . Material and methods not described here were described earlier (HOGENOOM, 1972) .…”

Section: Mteril Nd Methodsmentioning

confidence: 99%

“…In this paper an attempt will be made to determine the genetics of the self-compatibility which was found in Lycopersicon peruvianum (HOGENOOM, 1968(HOGENOOM, , 1972 . This study is necessary to come to an efficient use of the self-compatibility in pre-breeding of L .…”

Section: Introductionmentioning

confidence: 99%

Breaking breeding barriers in Lycopersicon. 3. Inheritance of self-compatibility in L. peruvianum (L.) Mill.

Hogenboom¹

1972

Euphytica

Self Cite

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SUMMRY brief survey is given of the genetics of self-compatibility in species with a one-locus gametophytic system of incompatibility . study has been made of the genetics of the self-compatibility found in L. peruvianum . From the results of various test crosses and selfings and of cytological research it isconcluded that self-compatibility in L . peruvianum can be based on different types of S-allele mutations, on addition of an S-allele bearing chromosome fragment, or on genes modifying the S-allele expressivity .The results further indicate that generation of new S-alleles is a frequently occurring phenomenon in inbred material of L . peruvianum and that pollen with an S-allele mutation or an extra chromosome fragment is less vital than normal pollen .short notation for incompatibility genotypes is given .

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Breaking breeding barriers in Lycopersicon. 2. Breakdown of self-incompatibility in L. peruvianum (L.) Mill.

Cited by 32 publications

References 44 publications

Effect of inbreeding on autogamy in Phlox

Effect of inbreeding on autogamy in Phlox

Genetic instability at the S-locus of Lycopersicon peruvianum plants regenerated from in vitro culture of anthers: Generation of new S-specificities and S-allele reversions

Breaking breeding barriers in Lycopersicon. 3. Inheritance of self-compatibility in L. peruvianum (L.) Mill.

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