Biosynthesis of Indoleacetic Acid from Tryptophan-C in Cell-free Extracts of Pea Shoot Tips

A 2-step, 1-dimensional thin-layer chromatographic procedure for isolating indoleacetic acid (IAA) was developed and utilized in investigations of the biosynthesis of IAA from tryptophan-¹⁴C in cell-free extracts of pea (Pisum sativum L.) shoot tips. Identification of a ¹⁴C-product as IAA was by (a) co-chromatography of authentic IAA and ¹⁴C-product on thin-layer chromatography, and (b) gas-liquid and thin-layer chromatography of authentic and presumptive IAA methyl esters. Dialysis of enzyme extracts and addition of α-ketoglutaric acid and pyridoxal phosphate to reaction mixtures resulted in approximately 2- to 3-fold increases in net yields of IAA over yields in non-dialyzed reaction mixtures which did not contain additives essential to a transaminase reaction of tryptophan. Addition of thiamine pyrophosphate to reaction mixtures further enhanced net biosynthesis of IAA. It is concluded that the formation of indolepyruvic acid and its subsequent decarboxylation probably are sequential reactions in the major pathway of IAA biosynthesis from tryptophan in cell-free extracts of Pisum shoot tips. Comparison of maximum net IAA biosynthesis in extracts of shoot tips of etiolated and light-grown dwarf and tall pea seedlings revealed an order, on a unit protein N basis, of: light-grown tall > light-grown dwarf > etiolated tall etiolated dwarf. It is concluded that the different rates of stem elongation among etiolated and light-grown dwarf and tall pea seedlings are correlated, in general, with differences in net IAA biosynthesis and sensitivity of the tissues to IAA.     

Light-grown plants of transgenic tobacco expressing an introduced oat phytochrome A gene under the control of a constitutive viral promoter exhibit persistent growth inhibition by far-red light

A comparison of the photoregulation of development has been made for etiolated and light-grown plants of wild-type (WT) tobacco (Nicotiana tabacun L.) and an isogenic transgenic line which expresses an introduced oat phytochrome gene (phyA) under the control of a constitutive viral promoter. Etiolated seedlings of both the WT and transgenic line showed irradiance-dependent inhibition of hypocotyl growth under continuous far-red (FR) light; transgenic seedlings showed a greater level of inhibition under a given fluence rate and this is considered to be the result of the heterologous phytochrome protein (PhyA) functioning in a compatible manner with the native etiolated phytochrome. Deetiolation of WT seedlings resulted in a loss of responsiveness to prolonged FR. Light-grown transgenic seedlings, however, continued to respond in an irradiance-dependent manner to prolonged FR and it is proposed that this is a specific function of the constitutive PhyA. Mature green plants of the WT and transgenic lines showed a qualitatively similar growth promotion to a brief end-of-day FR-treatment but this response was abolished in the transgenic plants under prolonged irradiation by this same FR source. Growth inhibition (McCormac et al. 1991, Planta 185, 162–170) and enhanced levels of nitrate-reductase activity under irradiance of low red:far-red ratio, as achieved by the FR-supplementation of white light, emphasised that the introduced PhyA was eliciting an aberrant mode of photoresponse compared with the normal phytochrome population of light-grown plants. Total levels of the oat-encoded phytochrome in the etiolated transgenic tobacco were shown to be influenced by the wavelength of continuous irradiation in a manner which was qualitatively similar to that seen for the native, etiolated tobacco phytochrome, and distinct from that seen in etiolated oat tissues. These results are discussed in terms of the proposal that the constitutive oat-PhyA pool in the transgenic plants leads to a persistence of a mode of response normally restricted to the situation in etiolated plants.Abbreviations FR far-red light - R red light - WL white light - WL + FR white light supplemented with FR - HIR high-irradiance response - PAR photosynthetically active radiation - Pr, Pfr R- and FR-absorbing forms of phytochrome - Ptot total phytochrome - phyA (PhyA) gene (encoded protein) for phytochrome - WT wild type This work was supported by an Agricultural and Food Research Council research grant to H.S. and A.M.; J.R. Cherry and R.D. Vierstra, (Department of Horticulture, University of Wisconsin-Madison, USA) are thanked for the provision of the transgenic tobacco line.     

Modulation of Phosphoenolpyruvate Carboxylase Phosphorylation in Leaves of Amaranthus hypochondriacus,a NAD-ME Type of C4 Plant

PEP carboxylase (PEPC) in leaves of C₄ plants is activated by phosphorylation of enzyme by a PEPC-protein kinase (PEPC-PK). We reevaluated the pattern of PEPC phosphorylation in leaf extracts of Amaranthus hypochondriacus. It was dependent on Ca²⁺, the optimum concentration of which for stimulation was 10 mM. The extent of stimulation was inhibited by 1,2-bis(2-aminophenoxy)ethane-N,N,N,N-tetraacetic acid (BAPTA), a Ca²⁺ chelator. The inhibition by BAPTA was relieved by the addition of Ca²⁺ but not by the addition of Mg²⁺. The stimulation by Ca²⁺ of PEPC phosphorylation was marginally enhanced by calmodulin (CaM), but not by diacylglycerol (DAG). Phosphorylation was strongly restricted by Ca²⁺ or Ca²⁺-CaM-dependent protein kinase inhibitors. Thus phosphorylation of PEPC is Ca²⁺-dependent in leaves of A. hypochondriacus and a calcium-dependent protein kinase (CDPK) may modulate PEPC-PK and subsequently the phosphorylation status of PEPC.     

Desaturation of Oleic and Linoleic Acids by Leaves of Dark- and Light-grown Maize Seedlings

Oleate and linoleate desaturation in leaves of maize seedlings was largely independent of previous light treatment of the seedlings; there was no evidence of light-induced desaturase activities. These results are in sharp contrast to those observed with developing cucumber cotyledons in which pronounced increase in desaturation occurs after exposure of tissue to light. The rates of desaturation of oleate were about four times those of linoleate in both etiolated and 16-hour greened maize leaves. In both etiolated and greened tissues, about two-thirds of the label from oleate was esterified after 4 hours, half of which was in phosphatidylcholine. Phosphatidylcholine and diglyceride contained large proportions of [¹⁴C]linoleate formed from [¹⁴C]oleate but not [¹⁴C]linolenate. In monogalactolipid, about two-thirds of the labeled fatty acids were linolenate. In vivo desaturase activity was present in tissue of widely different levels of differentiation and chlorophyll content obtained from light-grown maize seedlings.     

地黄RgCDPK基因的克隆与表达分析

钙依赖型蛋白激酶(calcium-dependent protein kinases, CDPKs)是高等植物细胞中重要的钙离子信号受体,在植物抵御逆境胁迫过程中发挥着重要作用。该研究以地黄为材料,设计特异引物,克隆地黄RgCDPK基因全长序列,并使用在线软件进行生物信息学分析,采用荧光定量PCR技术进行组织特异性分析。结果表明:(1)克隆得到的地黄CDPK基因长度为1 770 bp,编码589个氨基酸;(2)多序列比对和结构分析显示,该蛋白含有钙依赖蛋白激酶典型结构域丝氨酸/苏氨酸蛋白激酶区及EF-手性区。系统进化分析表明其与拟南芥 AtCDPK28 的同源关系最近,因此命名为RgCDPK(Genbank登录号为MT024235);(3)组织特异性分析得出RgCDPK在地黄叶中表达量最高。该研究成功克隆出地黄CDPK基因,且发现该基因在不同组织中的表达存在差异,为以后深入研究CDPK在地黄连作障碍等生物及非生物胁迫中的分子机制提供理论基础。     

Diversity of abundant mRNA sequences and patterns of protein synthesis in etiolated and greened pea seedlings

The diversity of abundant mRNA sequences in various parts of 4-d etiolated pea seedlings (Pisum sativum L. var. Rondo CB) was compared by a cell-free translation of the mRNAs in the presence of [³⁵S]methionine and by an analysis of the products by two-dimensional electrofocussing/ electrophoresis (2D separation). The various parts of the seedlings were also examined for the pattern of protein synthesis in vivo. Proteins were labeled by injection of [³⁵S]methionine into the cotyledons, followed by 2D separation of the products. Over 95% of the abundant mRNA sequences and newly synthesized abundant polypeptides were shared by all parts of etiolated seedlings, including the cotyledons. However, a few distinct differences were observed when comparing mRNAs of roots and shoots; the most prominent among these were a group of six abundant mRNA sequences found exclusively in shoots. Only about 30% of the polypeptides synthesized on isolated RNA could be traced in equivalent positions on the gels as the polypeptides synthesized in vivo. Analysis of total RNA from light-grown pea seedlings showed the appearance of some twenty-five translation products not found with total RNA from etiolated seedlings, while about nine other translation products disappeared. At least ten of the light-induced RNA sequences were also present after growth in low-intensity red light (>600 nm) and are therefore thought to be controlled by the phytochrome system. Comparison of 11-d light-grown pea plants with 4-d light-grown seedlings did not reveal additional translatable RNA sequences, indicating that the major morphogenetic changes that occur after 4 d are not accompanied by significant changes in the pattern of abundant RNA sequences.     

The effects of endogenous cytokinin content on benzyladenineenhanced nitrate reductase induction

Foliar application of benzyladenine (BA) has been shown to enhance nitrate-dependent induction of nitrate reductase (NR; EC 1.6.6.1) in etiolated wheat ( Triticum aestivum L.) seedlings. Whether similar enhancement occurs in light-grown plants, or whether endogenous cytokinin content affects this enhancement is unknown. Since the cytokinin content of etiolated plants probably differs from that of light-grown seedlings, the NR response of each to exogenous root- or shoot-applied BA in wheat (cv. Red Bob) was examined. Endogenous cytokinins present in untreated control tissues prior to BA application and changes that occurred after a 22 h (12 h dark followed by 10 h of light) period were determined using a combined HPLC-immunoassay method. Shoot application of BA enhanced the induction of NR in etiolated seedlings in a concentration-dependent manner but failed to enhance NR induction in light-grown plants. Root-applied BA enhanced NR induction in both etiolated and light-grown seedlings. Endogenous root cytokinin levels were similar in both etiolated and light-grown plants. In contrast, shoots of 6 day-old light-grown seedlings contained at least 20 times the amount of total cytokinins measured in shoots from etiolated plants of the same age. Total cytokinin content of the light-grown plants diminished after the 22-h period while that measured in etiolated seedlings increased. The responsiveness of seedlings to BA was correlated with endogenous cytokinin levels in that enhancement of NR induction by exogenous BA was low in tissues which contained high concentrations of cytokinin at the time of BA application. These results may prove useful in interpretation of gene responses to exogenous plant growth regulators.     

Cell length,light and14C-labelled indol-3yl-acetic acid transport inPisum satisum L. andPhaseolus vulgaris L

The putative auxin-transporting cells of the intact herbaceous dicotyledon are the young, differentiating vascular elements. The length of these cells was found to be considerably greater in dwarf (Meteor) than in tall (Alderman) varieties ofPisum sativum L., and to be greater in etiolated than in light-grown plants ofP. sativum cv Meteor andPhaseolus vulgaris L. cv Mexican Black. Under given light conditions during transport these large differences in cell length did not influence the shapes of the transport profiles or the velocity of transport of¹⁴C-labelled indol-3yl-acetic acid (IAA) applied to the apical bud. However, in both etiolated and light-grown bean and dwarf pea plants the velocity of transport in darkness was ca. 25% lower than that in light. Under the same conditions of transport velocities in bean were about twice those observed in the dwarf pea. Exposure to light during transport increased the rate of export of¹⁴C from the labelled shoot apex in green dwarf pea plants but not in etiolated plants. The light conditions to which the plants were exposed during growth and transport had little effect on the rates of uptake of IAA from the applied solutions. The results indicate that the velocity of auxin transport is independent of the frequency of cell-to-cell interfaces along the transport pathway and it is suggested that in intact plants auxin transport is entirely symplastic.     

Purification and characterization of a calcium-dependent protein kinase from beetroot plasma membranes

Several calcium-dependent protein kinases (CDPKs) are located in plant plasma membranes where they phosphorylate enzymes and transporters, like the H⁺-ATPase and water channels, thereby regulating their activities. In order to determine which kinases phosphorylate the H⁺-ATPase, a calcium-dependent kinase was purified from beetroot (Beta vulgaris L.) plasma membranes by anion-exchange chromatography, centrifugation in glycerol gradients and hydrophobic interaction chromatography. The kinetic parameters of this kinase were determined (V _max: 3.5 μmol mg⁻¹ min⁻¹, K _m for ATP: 67 μM, K _m for syntide 2: 15 μM). The kinase showed an optimum pH of 6.8 and a marked dependence on low-micromolar Ca²⁺ concentrations (K _d : 0.77 μM). During the purification procedure, a 63-kDa protein with an isoelectric point of 4.7 was enriched. However, this protein was shown not to be a kinase by mass spectrometry. Kinase activity gels showed that a 50-kDa protein could be responsible for most of the activity in purified kinase preparations. This protein was confirmed to be a CDPK by mass spectrometry, possibly the red beet ortholog of rice CDPK2 and Arabidopsis thaliana CPK9, both found associated with membranes. This kinase was able to phosphorylate purified H⁺-ATPase in a Ca²⁺-dependent manner.Electronic Supplementary Material Supplementary material is available to authorised users in the online version of this article at .     

Phosphorylation of the 24p3 protein secreted from mouse uterus in vitro and in vivo

The 24p3 protein is a 25 KDa glycoprotein, having been purified from mouse uterine fluid. Thr⁵⁴, Ser⁸⁸, and Thr¹²⁸/Ser¹²⁹ on the protein molecule were predicted to be the phosphorylation site of casein kinase II, protein kinase C, and cAMP-dependent protein kinase, respectively. Incorporation of phosphate to this protein from [-³²P]-ATP was tested in the solution suitable for the three kinases. Neither casein kinase II nor cAMP-dependent protein kinase reacted to the 24p3 protein; however, protein kinase C demonstrated phosphorylation to this protein. This phosphorylation may be competing with a polypeptide segment: Arg⁷⁹-Tyr-Trp-Ilu-Arg-Thr-Phe-Val-Pro-Ser⁸⁸-Ser-Arg-Ala-Gly-Gln-Phe-Thr-Leu-Gly⁹⁷ in the 24p3 protein molecule. To support this theory, Ser⁸⁸ is a phosphorylation site of protein kinase C on 24p3 protein. The enzyme kinetic parameter, based on the Michaelis-Menten equation, determined Km to be 2.96 M in the phosphorylation of 24p3 protein by the kinase. Both of the phosphorylated and dephosphorylated form of 24p3 protein can enhance the cAMP-dependent protein kinase activity in vitro. In addition, this experiment will show for the first time that serine-phosphorylated 24p3 protein exists in mouse uterine tissue.     

The Distribution of a Phytochrome-Like Protein in the Fern Psilotum nudum.; An Immunoblotting Analysis of an Early Ancestor of all Vascular Plants

The distribution of a 125 kg . mol^?1 protein recognized by a monoclonal antibody raised against phytochrome of maize was analyzed in the sporophyte of the fern Psilotum nudum. Highest amounts (up to 5 μg per fresh weight) of this protein were found in the tips of expanding shoots. Green sporangia as well as the pale tips of the rhizome contained this 125 kg . mol^?1 protein, too. In the brown parts of the rhizome it was more rarely contained. Unlike phytochrome from etiolated higher plants, the Psilotum protein appeared to be scarcely degraded by the illuminated plants. In this respect the protein of Psilotum seems to resemble the small fraction of phytochrome contained in green and illuminated higher plants. Moreover, after illuminating the Psilotum rhizome for 3 d, higher amounts of this protein were detected therein as before.     

Temporal and tissue-specific expression of the tobacco ntf4 MAP kinase

The large number of mitogen-activated protein (MAP) kinase genes identified to date in plants suggests that their encoded proteins have a wide array of functions in development and physiological responses, as has been indicated by studies on the factors which lead to the activation of these kinases. Signalling pathways involving members of a multigene family employ a variety of mechanisms to ensure response specificity, one of which is via differential gene expression. We have performed detailed analyses of the expression of the tobacco ntf4 MAP kinase gene using a variety of approaches. The ntf4 gene promoter region was isolated and a chimeric ntf4 promoter-GUS fusion construct was introduced into plants. GUS expression was detected in pollen, in developing and mature embryos, and shortly after seed germination, but not in other floral tissues and tissues such as leaf, root, or stem. This expression pattern was confirmed by northern and western analyses. In situ hybridization and immunolocalization studies showed that the expression of the ntf4 gene and its encoded protein p45^Ntf4 occurred in embryos at least from the globular embryo stage until the mature seed, as well as in the seed endosperm. Taken together, the results show that the p45^Ntf4 MAP kinase has a very restricted expression pattern, being found only in pollen and seeds. These findings should be important when considering MAP kinase function in plants.     

The role of cis-carotenoids in abscisic acid biosynthesis

Evidence has been obtained which is consistent with 9-cis-neoxanthin being a major precursor of abscisic acid (ABA) in higher plants. A mild, rapid procedure was developed for the extraction and analysis of carotenoids from a range of tissues. Once purified the carotenoids were identified from their light-absorbance properties, reactions with dilute acid, high-performance liquid chromatography R_ts, mass spectra and the quasiequilibria resulting from iodine-catalysed or chlorophyllsensitised photoisomerisation. Two possible ABA precursors, 9-cis-neoxanthin and 9-cis-violaxanthin, were identified in extracts of light-grown and etiolated leaves (of Lycopersicon esculentum, Phaseolus vulgaris, Vicia faba, Pisum sativum, Cicer arietinum, Zea mays, Nicotiana plumbaginifolia, Plantago lanceolata and Digitalis purpurea), and roots of light-grown and etiolated plants (Lycopersicon, Phaseolus and Zea). The 9,9-di-cisisomer of violaxanthin was synthesised but its presence was not detected in any extracts. Levels of 9-cis-neoxanthin and all-trans-violaxanthin were between 20- to 100-fold greater than those of ABA in light-grown leaves. The levels of 9-cis-violaxanthin were similar to those of ABA but unaffected by water stress. Etiolated Phaseolus leaves contained reduced amounts of carotenoids (15–20% compared with light-grown leaves) but retained the ability to synthesise large amounts of ABA. The amounts of ABA synthesised, measured as increases in ABA and its metabolites phaseic acid and dihydrophaseic acid, were closely matched by decreases in the levels of 9-cis-neoxanthin and all-trans-violaxanthin. In etiolated seedlings grown on 50% D₂O, deuterium incorporation into ABA was similar to that into the xanthophylls. Relative levels of carotenoids in roots and light-grown and etiolated leaves of the ABA-deficient mutants, notabilis, flacca and sitiens were the same as those found in wild-type tomato tissues.Abbreviations ABA abscisic acid - DPA dihydrophaseic acid - GC-MS gas chromatography-mass spectrometry - HPLC high-performance liquid chromatography - PA phaseic acid - t trans - Xan xanthoxin - flc flacca - not notabilis - sit sitiens The authors would like to thank the following for their help and advice: G. Britton (Department of Biochemistry, University of Liverpool, UK), B.H. Davies (Department of Biochemistry, University of Wales, Aberystwyth), P. Molnar, J. Szabolcs, D.C. Walton (Department of Biology, Suny, Syracuse, N.Y., USA), and Mr. J.K. Heald for his expert operation of the mass spectrometer. A.D.P. was supported initially by a Science and Engineering Research Council CASE award with Shell Biosciences, Sittingbourne, Kent, UK, and later by a Agricultural and Food Research Council (AFRC) grant. M.J.B. received a NATO fellowship. The mass spectrometer and HPLC-photodiode-array detector were purchased with funds provided by the AFRC.     

Leishmania donovani Attachment Stimulates PKC-Mediated Oxidative Events in Bone Marrow-Derived Macrophages

We investigated activation signaling events in bone marrow-derived macrophages after infection with Leishmania donovani, an intracellular parasite of macrophages. Leishmania donovani infection caused a general suppression of activation parameters like O₂^- and NO production. However, conditions which allow parasite attachment and prevent entry resulted in triggering of O₂^- and NO production and stimulation of O₂ consumption. Optimal NO and O₂^- production occurred when bone marrow-derived macrophages and Leishmania ratio was 1:100. The activation signal for O₂^- production was initiated 15 min after parasite attachment, whereas augmentation of NO production started 6 h after attachment. Activation of O₂^- and NO generation by L. donovani attachment was inhibited by staurosporine as well as by prolonged treatment of phorbol myristate acetate suggesting a protein kinase C-dependent mechanism. Translocation studies showed that protein kinase C activity in cell membrane fraction rapidly and transiently increased following parasite attachment. No such protein kinase C translocation event occurred in L. donovani infected bone marrow-derived macrophages. Phorbol myristate acetate was found to stimulate membrane translocation of protein kinase C in parasite attached cells whereas it was impaired in infected cells. However, both attachment and infection induced a similar shift of phorbol receptors from cytosolic to membrane fraction indicating that in infected cells the translocation of protein kinase C protein was not impaired but the activity of the membrane associated enzyme was somehow inhibited. These results suggest that although internalization of intracellular parasites like L. donovani caused inhibition of nitrite and superoxide release, mere attachment on macrophage surface resulted in an activation of protein kinase C-mediated downstream oxidative events.     

The protein kinase, protein phosphatase and inhibitor protein of nitrate reductase are ubiquitous in higher plants and independent of nitrate reductase expression and turnover

Nitrate reductase activity and NR protein levels in various leaf tissues were drastically decreased (<3.5% of normal activity) either by keeping detached leaves in continuous darkness for up to 6 d (spinach), or by growing plants (pea, squash) hydroponically on ammonium as the sole N-source, or by germinating and growing etiolated seedlings in complete darkness (squash). The presence of nitrate reductase protein kinase (NRPK), nitrate reductase protein phosphatase (NRPP) and inhibitor protein (IP) was examined by measuring the ability of NR-free desalted extracts to inactivate (ATP-dependent) and reactivate (5-AMP/EDTA-dependent) added purified spinach NR in vitro. Extracts from low-NR plants (ammonium-grown pea and squash) were also prepared from leaves harvested at the end of a normal light or dark phase, or after treating leaves with anaerobiosis, uncouplers or mannose, conditions which usually activate NR in nitrategrown normal plants. Without exception, extracts from NR-deficient plant tissues were able to inactivate and reactivate purified spinach NR with normal velocity, irrespective of pretreatment or time of harvest. Considerable NRPK, NRPP and IP activities were also found in extracts from almost NR-free ripe fruits (cucumber and tomato). Activities were totally absent, however, in extracts from isolated spinach chloroplasts. The NRPK and IP fractions were partially purified with normal yields from NR-deficient squash or spinach leaves, following the purification protocol worked out for nitrate-grown spinach. The Ca²⁺/Mg²⁺-dependent kinase fraction from NR-deficient squash or spinach phosphorylated added purified spinach NR with -[³²P]ATP and inactivated the enzyme after addition of IP. It is suggested (i) that the auxiliary proteins (NRPK, IP, NRPP) which modulate NR are rather species- or organ-unspecific, (ii) that they do not turn over as rapidly as does NR, (iii) that they are probably expressed independently of NR, and (iiii) that they are not covalently modulated, but under control of metabolic and/or physical signals which are removed by desalting.Abbreviations IP inhibitor protein - NR NADH-nitrate reductase - NRA nitrate reductase activity - NRPK nitrate reductase protein kinase - NRPP nitrate reductase protein phosphatase - PK protein kinase This work was supported by the Deutsche Forschungsgemeinschaft (SFB 251).     

Expression of three members of the calcium-dependent protein kinase gene family in Arabidopsis thaliana

Calcium-dependent protein kinases (CDPKs) belong to a unique family of enzymes containing a single polypeptide chain with a kinase domain at the amino terminus and a putative calcium-binding EF hands structure at the carboxyl terminus. From Arabidopsis thaliana, we have cloned three distinct cDNA sequences encoding CDPKs, which were designated as atcdpk6, atcdpk9 and atcdpk19. The full-length cDNA sequences for atcdpk6, atcdpk9 and atcdpk19 encode proteins with a molecular weight of 59343, 55376 and 59947, respectively. Recombinant atCDPK6 and atCDPK9 proteins were fully active as kinases whose activities were induced by Ca²⁺. Biochemical studies suggested the presence of an autoinhibitory domain in the junction between the kinase domain and the EF hands structure. Serial deletion of the four EF hands of atCDPK6 demonstrated that the integrity of the four EF hands was crucial to the Ca²⁺ response. All the three atcdpk genes were ubiquitously expressed in the plant as demonstrated by RNA gel blot experiments. Comparison of the genomic sequences suggested that the three cdpk genes have evolved differently. Using antibodies against atCDPK6 and atCDPK9 for immunohistochemical experiments, CDPKs were found to be expressed in specific cell types in a temporally and developmentally regulated manner.     

Modulation of GT-1 DNA-binding activity by calcium-dependent phosphorylation

The analysis of pea rbcS-3A promoter sequence showed that BoxII was necessary for the control of rbcS-3A gene expression by light. GT-1, a DNA-binding protein that interacts with BoxII in vitro, is a good candidate for being a light-modulated molecular switch controlling gene expression. However, the relationship between GT-1 activity and light-responsive gene activation still remains hypothetical. Because no marked de novo synthesis was detected after light treatment, light may induce post-translational modifications of GT-1 such as phosphorylation or dephosphorylation. Here, we show that recombinant GT-1 (hGT-1) of Arabidopsis can be phosphorylated by various mammalian kinase activities in vitro. Whereas phosphorylation by casein kinase II had no apparent effect on hGT-1 DNA binding, phosphorylation by calcium/calmodulin kinase II (CaMKII) increased the binding activity 10–20-fold. Mass spectrometry analyses of the phosphorylated hGT-1 showed that amongst the 6 potential phosphorylatable residues (T86, T133, S175, T179, S198 and T278), only T133 and S198 are heavily modified. Analyses of mutants altered at T86, T133, S175, T179, S198 and T278 demonstrated that phosphorylation of T133 can account for most of the stimulation of DNA-binding activity by CaMKII, indicating that this residue plays an important role in hGT-1/BoxII interaction. We further showed that nuclear GT-1 DNA-binding activity to BoxII was reduced by treatment with calf intestine phosphatase in extracts prepared from light-grown plants but not from etiolated plants. Taken together, our results suggest that GT-1 may act as a molecular switch modulated by calcium-dependent phosphorylation and dephosphorylation in response to light signals.