Genphysiologie quantitativer Merkmale bei Arabidopsis thaliana (L.) Heynh.

Zusammenfassung In biometrischen Untersuchungen zur Genetik quantitativer Merkmale wird bisher weitgehend das Problem der Genregulation übersehen. Chlorophyll b-Defektmutanten der Crucifere Arabidopsis thaliana (L.) Heynh. erlauben eine direkte biochemische und physiologische Prüfung ihrer quantitativen Genwirkungen in der Biosynthesekette der Plastidenpigmente. Auf Grund bestimmter Testkreuzungen zwischen zwei Mutanten und der Normalform sowie eines kombinierten Verfahrens zur phänotypischen Klassifizierung bestehend aus präparativer Dünnschichtchromatographie aller Plastidenpigmente, visueller Blattfarbenbonitur, papierchromatographischem Einzelpflanzentest und quantitativer Pigmentmessung der Linien werden in Übereinstimmung mit anderen Autoren die nachweisbaren Genotypen einer Allelenreihe ch ⁺, ch ¹ und ch ² des ch-Locus zugeordnet. ch ¹/ch ¹ blockiert die Chlorophyll b-Synthese vollständig, ch ²/ch ² nur etwa zu 90% gegenüber dem Wildtyp und in der Heterozygote ch ²/ch ¹ wird offenbar die Blockade durch komplementative Effekte noch stärker aufgehoben (Superdominanz des ch ²- über das ch ¹-Allel). Die in den Spaltungsgenerationen erhöhten Chlorophyll- und Carotinoid-Varianzen aller Genotypen gegenüber den Eltern weisen auf einen evtl. polygenen Hintergrund der Gesamtpigmentbildung hin, dessen physiologischer Wirkungsbereich aber relativ zu dem des Hauptgens ch begrenzt ist. Orientierende In-vitro-Versuche ergeben, daß im plastidenfreien Blattgewebe-Extrakt des Wildtyps ch ⁺/ch ⁺ ein Wirkstoffprinzip vorhanden ist, das belichtete Chloroplasten der in vivo pigmentdefekten Genotypen ch ¹/ch ¹ und ch ²/ch ² zur Chlorophyll b-Synthese befähigt. Weiterführende Aussagen über Art, Umfang und Zeitpunkt der hierbei angenommenen Enzymaktivitäts- bzw. Substratsänderungen werden von Versuchen mit variierten Strahlungsbedingungen und verbesserten Nachweismethoden der Pigmentvorstufen erwartet.

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Physiological genetics of quantitative characters in Arabidopsis thaliana (L.) Heynh.Part 1: segregation and biosynthesis of pigments in chlorophyll-b defect mutants

Summary In biometric studies on the genetics of quantitative characters the problem of regulation of the activity of genes is rarely considered. Mutants of Arabidopsis thaliana (L.) Heynh. (Cruciferae), defective for chlorophyll b, permit a direct biochemical and physiological determination of their quantitative gene effects in the biosynthetic pathway of the plastid pigments. In agreement with other authors, the detectable genotypes are found to be based on multiple alleles (ch ⁺, ch ¹ and ch ²) at the ch locus. This evidence was obtained by test crosses of two mutants with the wild type and by a phaenotypic classification of the progeny on the basis of preparatory thin layer chromatography, paper chromatography tests of single plants, and quantitative spectrophotometry of the lines. In ch ¹/ch ¹ the synthesis of chlorophyll b is completely blocked, in ch ²/ch ² only about 10 percent of the wild-type pigment is present, and in the heterozygote ch ²/ch ¹ a complementation effect is observed (i. e. superdominance of ch ² over ch ¹) resulting in still more pigment production. In the segregating generations the variances for chlorophyll and carotinoids of all the genotypes are higher than in the parents and therefore suggest a possible polygenic background for pigment development. However, the physiological effect of the genetic background is slight as compared with the effect of the major gene ch. Preliminary experiments show that in tissue extracts of wild type leaves (ch ⁺/ch ⁺) there is an effective agent which enables irradiated chloroplasts of the defective ch ¹/ch ¹ and ch ²/ch ² genotypes to synthesize chlorophyll b in vitro. Further information on the mechanism, extent and the time of action of the active agent should be obtained by varying the conditions of irradiation and by refining the tests for pigment precursors.

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Die pigmentphysiologischen Untersuchungen wurden durch eine. Sachbeihilfe der Deutschen Forschungsgemeinschaft unterstützt.     

Heteroblasty in Arabidopsis thaliana (L.) Heynh

 Heteroblasty in Arabidopsis thaliana was analyzed in a variety of plants with mutations in leaf morphology using a tissue-specific β-glucuronidase gene marker. Some mutants exhibited their mutant phenotypes specifically in foliage leaves. The phenotypes associated with the foliage-leaf-specific mutations were also found to be induced ectopically in cotyledons in the presence of the lec1 mutation. Moreover, the features of an emf1lec1 double mutant showed that cotyledons can be partially converted into carpelloids. When heteroblastic traits were examined in foliage leaves in the presence of certain mutations or natural deviations by histochemical analysis of the expression of the tissue-specific marker gene, it was found that ectopic expression of the developmental program for the first foliage leaves in lec1 cotyledons seemed to affect the heteroblastic features of the first set of foliage leaves, while foliage leaves beyond the third position appeared normal. Similarly, in wild-type plants, discrepancies in heteroblastic features, relative to standard features, of foliage leaves at early positions seemed to be eliminated in foliage leaves at later positions. These results suggest that heteroblasty in foliage leaves might be affected in part by the heteroblastic stage of the preceding foliage leaves but is finally controlled autonomously at each leaf position. Received: 9 July 1999 / Accepted: 17 August 1999     

pho3: a phosphorus-deficient mutant of Arabidopsis thaliana (L.) Heynh

A novel P-deficient mutant of Arabidopsis thaliana, pho3, was isolated by screening for root acid phosphatase (APase) activity in plants grown under low-P conditions. pho3 had 30% less APase activity in roots than the wild type and, in contrast to wild-type plants, root APase activity did not increase in response to growth in low P. However, shoot APase activity was higher in pho3 than in the wild-type plants. In addition, the pho3 mutant had a P-deficient phenotype, even when grown in P-sufficient conditions. The total P content of 11-d-old pho3 plants, grown in agar media with a plentiful supply of P, was about 25% lower than the wild-type level in the shoot, and about 65% lower in the roots. In the rosette leaves of mature soil-grown pho3 plants the total P content was again reduced, to about 50% of wild-type levels. pho3 exhibited a number of characteristics normally associated with low-P stress, including severely reduced growth, increased anthocyanin content (at least 100-fold greater than the wild type in soil-grown plants) and starch accumulation. The results suggest that the mutant is unable to respond to low internal P levels, and may lack a transporter or a signalling component involved in regulating P nutrition. Received: 21 March 2000 / Accepted: 15 August 2000     

Histological analysis of adventitious rooting in Arabidopsis thaliana (L.) Heynh seedlings

ABSTRACT

Adventititous rooting is essential for the post-embryonic growth of the root apparatus in various species. In Arabidopsis thaliana, adventitious rooting has been reported in some mutants, and auxin seems to be the inducer of the process. The objective of the study was to identify the tissues involved in adventitious rooting in the most commonly used ecotypes for molecular and genetic studies (i.e. Columbia, Wassilewskija and Landsberg erecta) both in the presence and absence of exogenous auxin. Seedlings of the three ecotypes were grown under various conditions. When grown under 16 hours light/day for 11 days, all seedlings showed adventitious roots, both with and without auxin, however, both adventitious and lateral rooting were enhanced by exogenous auxin (2 µM naphthaleneacetic acid). Independently of the presence of auxin and of the ecotype, the hypocotyl pericycle produced adventitious roots directly (i.e., according to the same pattern of lateral root formation by the pericycle cells in the primary root). However, in the presence of auxin, roots of indirect origin also, and mainly, formed and their formation was preceded by the exfoliation of the tissues external to the stele. Exfoliation was caused by cell hypertrophy, separation, and disintegration, which mainly involved the endodermis. At the exfoliation site, the pericycle, with a minor contribution of a few endodermal cells, produced the callus from which indirect roots arose. The finding that adventitious rooting occurs in the absence of auxin (all ecotypes) indicates that this process is part of the normal root apparatus in Arabidopsis, with the hypocotyl pericycle as the target tissue of the process. Exogenous auxin alters adventitious rhizogenesis mainly affecting the endodermis response.     

Ion channels in guard cells of Arabidopsis thaliana (L.) Heynh.

Despite the availability of many mutants for signal transduction, Arabidopsis thaliana guard cells have so far not been used in electrophysiological research. Problems with the isolation of epidermal strips and the small size of A. thaliana guard cells were often prohibiting. In the present study these difficulties were overcome and guard cells were impaled with double-barreled microelectrodes. Membrane-potential recordings were often stable for over half an hour and voltage-clamp measurements could be conducted. The guard cells were found to exhibit two states. The majority of the guard cells had depolarized membrane potentials, which were largely dependent on external K⁺ concentrations. Other cells displayed spontaneous transitions to a more hyperpolarized state, at which the free-running membrane potential (E_m) was not sensitive to the external K⁺ concentration. Two outward-rectifying conductances were identified in cells in the depolarized state. A slow outward-rectifying channel (s-ORC) had properties resembling the K⁺-selective ORC of Vicia faba guard cells (Blatt, 1988, J Membr Biol 102: 235–246). The activation and inactivation times and the activation potential, all depended on the reversal potential (E_rev) of the s-ORC conductance. The s-ORC was blocked by Ba²⁺ (K_1/2 = 0.3–1.3mM) and verapamil (K_1/2 = 15–20 μM). A second rapid outward-rectifying conductance (r-ORC) activated instantaneously upon stepping the voltage to positive values and was stimulated by Ba²⁺. Inward-rectifying channels (IRC) were only observed in cells in the hyperpolarized state. The activation time and activation potential of this channel were not sensitive to the external K⁺ concentration. The slow activation of the IRC (t_1/2 ≈ 0.5 s) and its negative activation potential (V_threshold = −155 mV) resemble the values found for the KAT1 channel expressed in Saccharomyces cerevisiae (Bertl et al., 1995, Proc Natl Acad Sci USA 92: 2701–2705). The results indicate that A. thaliana guard cells provide an excellent system for the study of signal transduction processes. Received: 28 March 1996 / Accepted: 11 November 1996     

Gravitropism in leaves of Arabidopsis thaliana (L.) Heynh

In higher plants, stems and roots show negative and positive gravitropism, respectively. However, current knowledge on the graviresponse of leaves is lacking. In this study, we analyzed the positioning and movement of rosette leaves of Arabidopsis thaliana under light and dark conditions. We found that the radial positioning of rosette leaves was not affected by the direction of gravity under continuous white light. In contrast, when plants were shifted to darkness, the leaves moved upwards, suggesting negative gravitropism. Analysis of the phosphoglucomutase and shoot gravitropism 2-1 mutants revealed that the sedimenting amyloplasts in the leaf petiole are important for gravity perception, as is the case in stems and roots. In addition, our detailed physiological analyses revealed a unique feature of leaf movement after the shift to darkness, i.e. movement could be divided into negative gravitropism and nastic movement. The orientation of rosette leaves is ascribed to a combination of these movements.     

Characterization of tt15, a novel transparent testa mutant of Arabidopsis thaliana (L.) Heynh.

The Arabidopsis thaliana seed coat typically has a brown color due to the accumulation of flavonoid pigments in the testa. Mutants of A. thaliana with defects in pigment biosynthesis often produce seeds that are olive brown or even yellow in appearence, and the responsible genetic loci are referred to as TRANSPARENT TESTA (TT). Large-scale screening for mutants affected in seed development and complementation analysis of a candidate mutant line with all published A. thalianatt mutants identified a new tt locus designated tt15. The tt15 mutation maps to the lower part of chromosome 1. Mutant plants produced pale greenish-brown seeds whose dormancy was slightly reduced. The phenotype was consistent with the maternal origin of the testa. Analysis of pigment accumulation and the study of expression patterns of genes involved in flavonoid biosynthesis in tt15 plants and seeds indicated a seed-specific phenotype. Most notable was a reduction of the cyanidin and quercetin content of tt15 seeds. Received: 2 October 1998 / Accepted: 10 October 1998     

Alterations in light-induced stomatal opening in a starch-deficient mutant of Arabidopsis thaliana L. deficient in chloroplast phosphoglucomutase activity

Stomatal responses to light of Arabidopsis thaliana wild-type plants and mutant plants deficient in starch (phosphoglucomutase deficient) were compared in gas exchange experiments. Stomatal density, size and ultrastructure were identical for the two phenotypes, but no starch was observed in guard cells of the mutant plants whatever the time of day. The overall extent of changes in stomatal conductance during 14 h light–10 h dark cycles was similar for the two phenotypes. However, the slow endogenous stomatal opening occurring in darkness in the wild type was not observed in the mutant plants. Stomata in the mutant plants responded much more slowly to blue light (70 μmol m^?2 s^?1) though the response to red light (250 μmol m^?2 s^?1) was similar to that of wild-type plants. In paradermal sections, stomatal responses to red light (300 μmol m^?2 s^?1) were weak for wild-type plants as well as for mutant plants. Stomatal opening was greater under low blue light (75 μmol m^?2 s^?1) than under red light for the two genotypes. However, in mutant plants, a high chloride concentration (50 mol m^?3) was necessary to achieve the same stomatal aperture as observed for the wild-type plants. These results suggest that starch metabolism, via the synthesis of a counter-ion to potassium (probably malate), is required for full stomatal response to blue light but is not involved in the stomatal response to red light.     

磷空间有效性对拟南芥根形态构型的影响

磷空间有效性显著影响拟南芥主、侧根生长。在均一的磷处理下,极度磷胁迫或过量供磷均会导致拟南芥主根变短和侧根密度降低。在分层的磷处理下,上层高磷下层低磷能明显促进主根伸长生长,提高侧根在高磷区域的密度,说明植物根系在下层低磷区感受到磷胁迫信号后,可促进上层高磷区侧根的形成和发育。     

Differential expression of two related,low-temperature-induced genes in Arabidopsis thaliana (L.) Heynh

Plant cold acclimation is correlated to expression of low-temperature-induced (lti) genes. By using a previously characterized lti cDNA clone as a probe we isolated a genomic fragment that carried two closely located lti genes of Arabidopsis thaliana. The genes were structurally related with the coding regions interrupted by three similarly located short introns and were transcribed in the same direction. The nucleotide sequences of the two genes, lti78 and lti65, predict novel hydrophilic polypeptides with molecular weights of 77856 and 64510, respectively, lti78 corresponding to the cDNA probe. Of the 710 amino acids of LTI78 and 600 amino acids of LTI65, 346 amino acids were identical between the polypeptides, which suggests that the genes may have a common origin.Both lti78 and lti65 were induced by low temperature, exogenous abscisic acid (ABA) and drought, but the responsiveness of the genes to these stimuli was markedly different. Both the levels and the temporal pattern of expression differed between the genes. Expression of lti78 was mainly responsive to low temperature, that of lti65 to drought and ABA. In contrast to the induction of lti78, which follows separate signal pathways during low-temperature, ABA and drought treatment, the drought induction of lti65 is ABA-dependent and the low-temperature induction appears to be coupled to the ABA biosynthetic pathway. This differential expression of two related genes may indicate that they have some-what different roles in the stress response.     

Regulation of proline accumulation in Arabidopsis thaliana (L.) Heynh during development and in response to desiccation

Significant differences were observed in the amount and proportion of free amino acids in different organs of Arabidopsis thaliana (L.) Heynh, ecotype Columbia. The most notable were found for proline, which formed 17–26% of the total free amino acid concentration in reproductive tissues (floret and seed), but only 1–3% of the total free amino acid concentration in vegetative tissues (rosette leaf and root). Proline accumulation was associated with tissues that had relatively low water contents. Tissues which displayed high water contents, such as rosette leaves, contained low levels of proline. A significant increase in the levels of proline accumulation occurred in plants subjected to experimentally induced low water potentials as compared to unstressed plants. For instance, an 8–10-fold increase in proline was observed in the presence of 120 mmol kg^?1 NaCl or KCl, and a 20-fold increase was stimulated by 60 mmol kg^?1 PEG. However, in addition to the accumulation of proline, massive accumulation of Na⁺, K⁺ and Cl^? ions occurred in tissues of plants stressed with salt. No significant differences were observed in mineral ions in plants stressed with PEG. Isotope tracer experiments with ¹⁴C compounds established that glutamate, ornithine and arginine are precursors of the proline biosynthesis induced by PEG in response to low water potentials in Arabidopsis thaliana. We conclude that the accumulation of proline in response to PEG occurs through increased biosynthesis.     

Mutational analysis of blue-light sensing in Arabidopsis

Blue light regulates many physiological and developmental processes in higher plants through the action of multiple photosensory systems. The analysis of photomorphogenic mutants is leading to a better understanding of how the different photosensory systems mediate the wide range of responses observed in blue light. A review of the current literature on photomorphogenic mutants makes it apparent that redundancies exist in photoreceptor function. For example, many blue-light responses that have been shown to be regulated by a blue-light photosensory system are also under phytochrome control. The study of various light-response mutants suggests that a complex sensory network regulates light-mediated responses. This article attempts to piece together information regarding the sensory systems responsible for blue-light-regulated responses.     

Population-level performance of Arabidopsis thaliana (L.) Heynh in dense monocultures

尽管几乎所有的农业物种在育种过程中都经历了从多物种环境向密集单种农田的过渡,但对非农业植物物种在单一栽培条件下的表现知之甚少。鉴于最近的研究成果突出杂草物种拟南芥为作物育种提供新视角的可能性,本研究的目的是了解播种密度对拟南芥在不同光周期环境下群体和个体表现的影响。我们研究了拟南芥Cvi-0生态型的表现。Cvi-0的选择基于一项初步实验,发现Cvi-0生态型植物表现出强烈的竞争性能。播种密度处理设置为每株17.6、8.8、4.4、2.2和1.1 cm²,光周期环境为日照12小时或16小时。结果表明,植物在所有密度处理下均获得了恒定的总种子产量。播种密度和日照时间处理会有一些相互作用：在高播种密度和长日照时间的处理下,种子重量更大,而日照时间短的处理下种子重量与密度呈负相关。这些结果阐明了一年生植物在面对激烈的种内竞争时能够采取不同的策略,并有助于为提高群体表现的作物育种提供新的前景。     

The pattern of secondary root formation in curving roots of Arabidopsis thaliana (L.) Heynh.

Abstract. A gravitational stimulus was used to induce the curvature of the main root of Arabidopsis thaliana. The number of secondary roots increased on the convex side and decreased on the concave side of any curved main root axes in comparison with straight roots used as the control. The same phenomenon was observed with the curved main roots of plants grown on a clinostat and of mutant plants exhibiting random root orientation. The data suggest that the pattern of lateral root formation is associated with curvature but is independent of the environmental stimuli used to induce curvature.     

Differential expression of triplicate phosphoribosylanthranilate isomerase isogenes in the tryptophan biosynthetic pathway of Arabidopsis thaliana (L.) Heynh.

Phosphoribosylanthranilate isomerases (PAI) in the tryptophan biosynthetic pathway of Arabidopsis thaliana are encoded by a gene family. Expression patterns of each individual PAI isogene were investigated by analyzing expression of translation-fusions of promoter-β-glucuronidase (GUS) chimeras in transgenic plants. Quantification and histochemical staining of GUS activities expressed in PAI transgenic plants demonstrated that, first, expression of the three PAI isogenes was differentially regulated under normal growth conditions. Both PAI1 and PAI3 showed approximately 10-fold stronger expression than PAI2. Second, PAI isogenes differentially responded to environmental stresses such as ultraviolet irradiation and the abiotic elicitor silver nitrate. PAI2 displayed a stronger response to stresses than the other two PAI isogenes. Third, each individual PAI isogene was differentially expressed in a tissue- and cell-type-specific manner. Fourth, expression of PAI isogenes was coordinated to meet the requirement for normal growth and development of A. thaliana. Deletion of PAI1 is partially responsible for abnormal growth and development in the PAI deletion mutant trp6 as well as strong blue fluorescence in young leaves under ultraviolet irradiation. Received: 15 June 2000 / Accepted: 16 August 2000