Selection of valine-resistance in callus culture of Arabidopsis thaliana (L.) Heynh. derived from leaf explants

The selection of valine-resistant mutants was carried out in leaf explant cultures of three <em>Arabidopsis thaliana</em> (L.) Heynh. ecotypes: C-24, RLD and Columbia. The valine concentration used for in vitro selection, lethal for seed-growing plants, has not affected callus formation and growth. However, strong inhibition of shoot regeneration ability of calli growing under selection pressure was noticed. In total, 1043 explants were cultured on valine medium and 18 shoots were regenerated with an average frequency of 1.7 shoots per 100 calli. Most R₁ shoots were sterile and seeds were collected from 3 plants. The transmission of valine-resistance to the sexual progeny of these plants was scored and the increased level of valine-resistance was found in progeny of one line - 61 C. This line originated from the culture of Columbia leaf explant and displayed tetraploid chromosome number.

The Amino Acid Valine Is Secreted in Continuous-Flow Bacterial Biofilms

ABSTRACT Biofilms are structured communities characterized by distinctive gene expression patterns and profound physiological changes compared to those of planktonic cultures. Here, we show that many gram-negative bacterial biofilms secrete high levels of a small-molecular-weight compound, which inhibits the growth of only Escherichia coli K-12 and a rare few other natural isolates. We demonstrate both genetically and biochemically that this molecule is the amino acid valine, and we provide evidence that valine production within biofilms results from metabolic changes occurring within high-density biofilm communities when carbon sources are not limiting. This finding identifies a natural environment in which bacteria can encounter high amounts of valine, and we propose that in-biofilm valine secretion may be the long-sought reason for widespread but unexplained valine resistance found in most enterobacteria. Our results experimentally validate the postulated production of metabolites that is characteristic of the conditions associated with some biofilm environments. The identification of such molecules may lead to new approaches for biofilm monitoring and control.

Spontaneous point mutations that occur more often when advantageous than when neutral.

Recent reports have called into question the widespread belief "that mutations arise continuously and without any consideration for their utility" (in the words of J. Cairns) and have suggested that some mutations (which Cairns called "directed" mutations) may occur as specific responses to environmental challenges, i.e., they may occur more often when advantageous than when neutral. In this paper it is shown that point mutations in the trp operon reverted to trp+ more frequently under conditions of prolonged tryptophan deprivation when the reversions were advantageous, than in the presence of tryptophan when the reversions were neutral. The overall mutation rate, as determined from the rates of mutation to valine resistance and to constitutive expression of the lac operon, did not increase during tryptophan starvation. The trp reversion rate did not increase when the cells were starved for cysteine for a similar period, indicating that the increased reversion rate was specific to conditions where the reversions were advantageous. Two artifactual explanations for the observations, delayed growth of some preexisting revertants and cryptic growth by some cells at the expense of dying cells within aged colonies, were tested and rejected as unlikely. The trp+ reversions that occurred while trp- colonies aged in the absence of tryptophan were shown to be time-dependent rather than replication-dependent, and it is suggested that they occur by mechanisms different from those that have been studied in growing cells. A heuristic model for the molecular basis of such mutations is proposed and evidence consistent with that model is discussed. It is suggested that the results in this and previous studies can be explained on the basis of underlying random mechanisms that act during prolonged periods of physiological stress, and that "directed" mutations are not necessarily the basis of those observations.

VALINE-RESISTANCE, A POTENTIAL MARKER IN PLANT CELL GENETICS. II. OPTIMIZATION OF UV MUTAGENESIS AND SELECTION OF VALINE-RESISTANT COLONIES DERIVED FROM TOBACCO MESOPHYLL PROTOPLASTS

ABSTRACT The induction and selection of valine-resistant mutants from haploid tobacco (Nicotiana tabacum L.) mesophyll protoplast-derived cells have been studied. Using cells from an original mutant plant obtained previously, we performed reconstruction experiments in order to determine the best conditions for the recovery of resistant cells among a population of sensitive cells. Optimal selective conditions were shown to depend on various factors including cell density, time of addition of valine and seasonal variations affecting the mother plants.—Using cell densities of approximately 104 cells/ml, we defined efficient selective conditions: more than 25% of the putative mutant clones selected from UV-mutagenized protoplasts were reproducibly confirmed to be valine resistant. Further characterization of some regenerated mutant plants indicated that valine-resistance was associated with an uptake deficiency, as in the case of the original mutant plant of the Valr-2 line used for reconstruction experiments. Spontaneous mutation rates for valine-resistance were below accurately detectable levels, i.e., less than 10-6 per cell per generation. Induced mutation frequency varied nonlinearily with UV dose from 10-5 to 5 × 10-4 resistant clones per surviving colony. Two independent loci (vr2 and vr3) were previously shown to be involved in valine-resistance due to amino acid uptake deficiency. Haploid tobacco plants were produced through anther culture from an F1 double-heterozygous plant obtained from a cross between the original mutant plant and a wild-type plant. Study of the level of resistance to valine of protoplast-derived cells allowed the classification of these haploid plants in four types: sensitive, resistant and two intermediary resistant types believed to result from the presence of a mutant allele at only one of the two loci involved. The frequencies of UV-induced mutations in cells derived from haploid plants of one of the intermediary types were compared to those observed in wild-type cells. The results are considered in light of the amphidiploid structure of the tobacco genome.

VALINE-RESISTANCE, A POTENTIAL MARKER IN PLANT CELL GENETICS. I. DISTINCTION BETWEEN TWO TYPES OF VALINE-RESISTANT TOBACCO MUTANTS ISOLATED FROM PROTOPLAST-DERIVED CELLS

ABSTRACT In previous experiments, seven lines of valine-resistant plants were regenerated from protoplast-derived haploid tobacco mesophyll cells which had been UV mutagenized and submitted to selection by toxic concentrations of valine. In this study we described the transmission of valine-resistance to progeny and a preliminary phenotypical and biochemical characterization of the resistant plants.—Two types were thus distinguished among the seven mutant lines. Valine-resistance of the mutants of the first type (three lines) was transmitted as a single Mendelian dominant character (Vr1), whereas valine-resistance of the second type (four lines) was transmitted as a digenic recessive character (vr2 and vr3). Allelism tests revealed that the four recessive mutant lines yielded resistant progeny when intercrossed and, therefore, bear recessive mutant alleles at the same two unlinked loci.—When cultured at a density of 100 cell/ml, protoplast-derived cells of mutants of the first type had a low level of resistance to valine, whereas protoplast-derived cells of mutants of the second type displayed a high level of resistance to valine and to other amino acids.—According to the results of 14 C-labelled amino acid uptake experiments, the amino acid resistance of mutants of the second type, but not valine-resistance of the first type, could be accounted for by reduced uptake of several amino acids. Possible uses of valine-resistance as a marker in plant cell genetics are discussed.