Sandra Lehmann scite author profile

The protein encoded by the FLOWERING LOCUS T (FT) gene from Arabidopsis thaliana seems to be the long-searched florigen, and over-expression of FT orthologues resulted in accelerated flower development in annual and perennial plants. In the present study, we isolated two allelic mRNA sequences of an FT-homologous gene from apple, which was designated as MdFT1. Using a SSR motif this gene was mapped on LG 12 of apple. Over-expression of MdFT1 in Arabidopsis and the commercially important tree species poplar and apple itself using the CaMV 35S or the Arabidopsis Suc2 promoter resulted in significant accelerated flowering compared with wild-type plants. Transgenic T(0) plants of Arabidopsis flowered 4-6 days on average earlier than wild-type Arabidopsis under LD conditions. Under short-day conditions Suc2::MdFT1 plants of the T(1)-generation flowered after 66 ± 18 days, while wild-type plants flowered about 22 days later. All transgenic Arabidopsis plants showed a normal habit except for the early flowering phenotype. Early flowering was detected 6-10 months after transformation in transgenic polar clones containing MdFT1 driven by the CaMV 35S, whereas plants of the transgenic apple clone T780 set up its first flowers during in vitro cultivation. Based on our results we conclude that MdFT1 is responsible for inducing flowering and that the function of the apple FT1 gene is conserved in annual herbaceous species as well as perennial woody species. Furthermore, we discuss the role of MdFT1 in flower development with regard to the findings of genetic studies on apple.

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The Optimal Mutagen Dosage to Induce Point-Mutations in Synechocystis sp. PCC6803 and Its Application to Promote Temperature Tolerance

Tillich

Lehmann

Schulze

et al. 2012

PLoS ONE

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Random mutagenesis is a useful tool to genetically modify organisms for various purposes, such as adaptation to cultivation conditions, the induction of tolerances, or increased yield of valuable substances. This is especially attractive for systems where it is not obvious which genes require modifications. Random mutagenesis has been extensively used to modify crop plants, but even with the renewed interest in microalgae and cyanobacteria for biofuel applications, there is relatively limited current research available on the application of random mutagenesis for these organisms, especially for cyanobacteria. In the presented work we characterized the lethality and rate of non-lethal point mutations for ultraviolet radiation and methyl methanesulphonate on the model cyanobacteria Synechocystis sp. PCC6803. Based on these results an optimal dosage of 10–50 J/m2 for UV and either 0.1 or 1 v% for MMS was determined. A Synechocystis wildtype culture was then mutagenized and selected for increased temperature tolerance in vivo. During the second round of mutagenesis the viability of the culture was monitored on a cell by cell level from the treatment of the cells up to the growth at an increased temperature. After four distinct rounds of treatment (two with each mutagen) the temperature tolerance of the strain was effectively raised by about 2°C. Coupled with an appropriate in vivo screening, the described methods should be applicable to induce a variety of desirable characteristics in various strains. Coupling random mutagenesis with high-throughput screening methods would additionally allow to select for important characteristics for biofuel production, which do not yield a higher fitness and can not be selected for in vivo, such as fatty acid concentration. In a combined approach with full genome sequencing random mutagenesis could be used to determine suitable target-genes for more focused methods.

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THE SWITCH TO FLOWERING: GENES INVOLVED IN FLORAL INDUCTION OF THE APPLE CULTIVAR 'PINOVA' AND THE ROLE OF THE FLOWERING GENE MdFT

Hättasch¹,

Flachowsky²,

Hanke³

et al. 2009

Acta Hortic.

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Functional Characterization of Two Antagonistic Acting Flowering Genes in Apple Malus × Domestica Borkh.

Flachowsky¹,

Szankowski²,

Peil³

et al. 2012

Acta Hortic.

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Note added in proof to: Over-expression of an FT-homologous gene of apple induces early flowering in annual and perennial plants

Tränkner

Lehmann

Hoenicka

et al. 2010

Planta

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Ó Springer- Verlag 2010 In the study presented, we concluded on the basis of the data publicly available at the time of submission that the isolated FT-like mRNA sequences are alleles of one and the same MdFT gene. Based on this conclusion, we designated both sequences as alleles of MdFT1 and used the sequence with strongest identity to FT of Arabidopsis for transformation. Based on the information published very recently by Kotoda et al. (2010), we learnt that the sequence (accession number HQ424012) used for transformation of Arabidopsis, apple and poplar in our study was MdFT2 (linkage group 4) and not MdFT1 (linkage group 12) as assumed. Based on the high level of sequence identity between both MdFT genes, the primers used for expression studies do not distinguish between MdFT1 and MdFT2. Therefore, the expression pattern shown in Fig. S1 contains both mRNA sequences (MdFT1 and MdFT2). Also Fig. 6 showing multiple sequence alignment of two segments of the fourth exon is corrected conveniently. Whether the two amino acid substitutions (A157S and A158V) present in MdFT1 but not in MdFT2 will have any effect on the phenotype of transgenic poplar cannot be stated at the moment. Further investigations are needed. Corrected Fig. 6 and legend are given below.

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Sandra Lehmann

Over-expression of an FT-homologous gene of apple induces early flowering in annual and perennial plants

The Optimal Mutagen Dosage to Induce Point-Mutations in Synechocystis sp. PCC6803 and Its Application to Promote Temperature Tolerance

THE SWITCH TO FLOWERING: GENES INVOLVED IN FLORAL INDUCTION OF THE APPLE CULTIVAR 'PINOVA' AND THE ROLE OF THE FLOWERING GENE MdFT

Functional Characterization of Two Antagonistic Acting Flowering Genes in Apple Malus × Domestica Borkh.

Note added in proof to: Over-expression of an FT-homologous gene of apple induces early flowering in annual and perennial plants

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