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Genetic and molecular analysis of Sn, a light-inducible, tissue specific regulatory gene in maize (1991)

Tonelli, Chiara ; Consonni, Gabriella ; Dolfini, Silvana Faccio ; [et al.]

Springer

Molecular genetics and genomics 225 (1991), S. 401-410

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ISSN: 1617-4623

Keywords: Flavonoids ; Light regulation ; Sn locus ; Tissue-specificity ; Zea mays

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary The Sn locus of maize is functionally similar to the R and B loci, in that Sn differentially controls the tissue-specific deposition of anthocyanin pigments in certain seedling and plant cells. We show that Sn shows molecular similarity to the R gene and have used R DNA probes to characterize several Sn alleles. Northern analysis demonstrates that all Sn alleles encode a 2.5 kb transcript, which is expressed in a tissue-specific fashion consistent with the distribution of anthocyanins. Expression of the Sn gene is light-regulated. However, the Sn: bol3 allele allows Sn mRNA transcription to occur in the dark, leading to pigmentation in dark-grown seedlings and cob integuments. We report the isolation of genomic and cDNA clones of the light-independent Sn: bol3 allele. Using Sn cDNA as a probe, the spatial and temporal expression of Sn has been examined. The cell-specific localization of Sn mRNA has been confirmed by in situ hybridization using labelled antisense RNA probes. According to its proposed regulatory role, expression of Sn precedes and, in turn, causes a coordinate and tissue-specific accumulation of mRNA of structural genes for pigment synthesis and deposition, such as A1 and C2. The functional and structural relationship between R, B, Lc and Sn is discussed in terms of an evolutionary derivation from a single ancestral gene which gave rise this diverse gene family by successive duplication events.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00261680

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Ectopic anthocyanin pigmentation in maize as a tool for defining interactions between homologous regulatory factors (1997)

Consonni, G. ; Ronchi, A. ; Pilu, R. ; [et al.]

Springer

Molecular genetics and genomics 256 (1997), S. 265-276

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ISSN: 1617-4623

Keywords: Key wordsR locus ; Sn locus ; Anthocyanins ; Tissue specificity ; Paramutation

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract The duplicated R and Sn genes are involved in the regulation of the maize anthocyanin biosynthetic pathway, encoding tissue-specific products that are homologous to the helix-loop-helix transcriptional activators. Sn determines the pigmentation of the mesocotyl, leaf basis and pericarp, while R determines pigmentation in various tissues, but not in the mesocotyl. In the progeny derived from test-crosses of R/Sn heterozygous plants, a high frequency of R plants exhibiting mesocotyl pigmentation was observed; these derivatives were defined as R*. In R* plants, the presence of this novel trait was not accompanied by the acquisition of Sn or by gross DNA rearrangements in the R profile. Accordingly, RT-PCR analysis showed that mesocotyl pigmentation in R* was attributable to the resident R gene. The occurrence of R* was observed with all R alleles tested, and was enhanced when a P component was present. The heritability of R* was shown only in the case of the standard R-r allele, which carries a functional P component. In addition, we observed that R* can influence other R alleles, transferring the ability to pigment the mesocotyl. R* is unstable, showing a tendency to return to its original state after a few generations. In R* plants there was a correlation between observed ectopic pigmentation and an increase in the level of A1 transcript but, surprisingly, not in the accumulation of R transcript. The results obtained from the analysis of test crosses of rSn/rΔ plants suggest that an unlinked genetic factor accounts for the ectopic pigmentation. Concomitant occurrence of epigenetic events might explain the observed instability and reversibility noted above. Further study of this phenomenon might help to elucidate the basis of the interaction between homologous and non-homologous regulators.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004380050569

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