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Molecular analysis of a somaclonal mutant of maize alcohol dehydrogenase (1986)

Brettell, Richard I. S. ; Dennis, Elizabeth S. ; Scowcroft, William R. ; [et al.]

Springer

Molecular genetics and genomics 202 (1986), S. 235-239

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ISSN: 1617-4623

Keywords: Maize ; Alcohol dehydrogenase ; Somaclonal variation ; Mutation ; Gene sequence

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Plants regenerated from tissue cultures of maize were screened for variants of ADH1 and ADH2. Root extracts of 645 primary regenerant plants were tested, and one stable mutant of Adh1 was detected. The mutant gene (Adh1-Usv) produces a functional enzyme with a slower electrophoretic mobility than that of the progenitor Adh1-S allele, and is stably transmitted to progeny. The mutant was not present among four other plants derived from the same immature embryo, and therefore arose as a consequence of the culture procedure. The gene of Adh1-Usv was cloned and sequenced. A single base change in exon 6 was the only alteration found in the gene sequence. This would translate in the polypeptide sequence to a valine residue substituting for a glutamic acid residue, resulting in the loss of a negative charge and the production of a protein with slower electrophoretic mobility.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00331642

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Multiple DNA methyltransferase genes in Arabidopsis thaliana (1999)

Genger, Ruth K. ; Kovac, Kathryn A. ; Dennis, Elizabeth S. ; [et al.]

Springer

Plant molecular biology 41 (1999), S. 269-278

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ISSN: 1573-5028

Keywords: antisense ; chromodomain ; DNA methylation ; METI ; plant

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Methylation of plant DNA occurs at cytosines in any sequence context, and as the Arabidopsis methyltransferase, METI, preferentially methylates cytosines in CG dinucleotides, it is likely that Arabidopsis has other methyltransferases with different target specificities. We have identified five additional genes encoding putative DNA methyltransferases. Three of these genes are very similar to METI throughout the coding region; these genes probably arose by a series of gene duplication events, the most recent giving rise to METIIa and METIIb. METIIa and b are expressed at low levels in vegetative and floral organs and the level of transcripts is not affected by the introduction of a METI antisense transgene, nor do the METII enzymes substitute for the reduced activity of METI in methylating CG dinucleotides. METIII is not essential as it encodes a truncated protein. Two other genes encode a second class of DNA methyltransferase with the conserved motifs characteristic of cytosine methyltransferases, but with little homology to the METI-like methyltransferases through the remainder of the protein. These two methyltransferases are characterized by the presence of a chromodomain inserted within the methyltransferase domain, suggesting that they may be associated with heterochromatin. Both these genes are transcribed at low levels in vegetative and reproductive tissues.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1006347010369

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Eucalyptus has a functional equivalent of the Arabidopsis floral meristem identity gene LEAFY (1998)

Southerton, Simon G. ; Strauss, Steven H. ; Olive, Mark R. ; [et al.]

Springer

Plant molecular biology 37 (1998), S. 897-910

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ISSN: 1573-5028

Keywords: Eucalyptus globulus ; floral meristem identity gene ; flower development ; in situ hybridization ; LEAFY homologue

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Two genes cloned from Eucalyptus globulus, Eucalyptus LeaFy (ELF1 and ELF2), have sequence homology to the floral meristem identity genes LEAFY from Arabidopsis and FLORICAULA from Antirrhinum. ELF1 is expressed in the developing eucalypt floral organs in a pattern similar to LEAFY while ELF2 appears to be a pseudo gene. ELF1 is expressed strongly in the early floral primordium and then successively in the primordia of sepals, petals, stamens and carpels. It is also expressed in the leaf primordia and young leaves and adult and juvenile trees. The ELF1 promoter coupled to a GUS reporter gene directs expression in transgenic Arabidopsis in a temporal and tissue-specific pattern similar to an equivalent Arabidopsis LEAFY promoter construct. Strong expression is seen in young flower buds and then later in sepals and petals. No expression was seen in rosette leaves or roots of flowering plants or in any non-flowering plants grown under long days. Furthermore, ectopic expression of the ELF1 gene in transgenic Arabidopsis causes the premature conversion of shoots into flowers, as does an equivalent 35S-LFY construct. These data suggest that ELF1 plays a similar role to LFY in flower development and that the basic mechanisms involved in flower initiation and development in Eucalyptus are similar to those in Arabidopsis.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1006056014079

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