Calcium-dependent membrane depolarisation activated by phytochrome in the moss Physcomitrella patens

In caulonemal filaments of Physcomitrella patens which had been preincubated in the dark for 24 h, irradiation with red light (640 nm, fluence rate 85 mol · m^–2 · s^–1) evoked (i) the development of side branch initials and (ii) a rapid, but transient, depolarisation of the plasma membrane by 90 ± 13 mV from a resting potential of -178 ± 13 mV. This was followed by a transient hyperpolarisation to a value 21± 8 mV more negative than the original membrane potential. The refractory period for the transient depolarisation was between 12 and 15 min. The fluence rate of red light required to evoke maximal depolarisation was about 80 mol · m^–2 · s^–1 for a 1-min pulse. At this fluence rate, a depolarising response could be recorded for pulse lengths as small as 7 s. The transient depolarisation was insensitive to 3-(3,4dichlorophenyl)-1,1-dimethyl urea (DCMU) and was unchanged in plants bleached by growth on norflurazon (SAN 9789). Furthermore, the electrical response could be blocked by simultaneous application of far-red light. These results suggest the involvement of the photoreceptor phytochrome in the response. Removing Ca²⁺ from the external medium or replacing Ca²⁺ with Mg²⁺ blocked the depolarisation. The depolarisation could also be blocked by the K⁺ channel-blocker tetraethylammonium (10 mM) and the Cl^– channel-blocker niflumic acid (1 M). Conversely, although calcium channel-antagonists such as nifedipine and lanthanides, applied at a concentration of 100 M, also altered the response, they did not block it. A possible ionic mechanism for the membrane potential transient is advanced, and the physiological significance discussed in the context of early events in the phytochrome signalling pathway.Abbreviations [Ca²⁺]_c cytosolic Ca²⁺ concentration - DCMU 3-(3,4-dichlorophenyt)-1,1-dimethylurea - TEA tetraethylammonium We thank Prof. David Cove (Department of Genetics, University of Leeds) for fruitful discussions, providing plants and advice on culturing methods, Dr. Richard Firn (York) for stimulating discussions, Ian Jennings (York) for technical advice on the electrophysiological apparatus, and Anna Bate (York) for looking after the plant cultures. Financial support was received from the Biotechnology and Biological Sciences Research Council (Grant P87/4043 to D.S. and Grant PDF/14 to E.J.) and The New Phytologist Trust (studentship support to E.E.).     

Protein N-glycosylation is similar in the moss Physcomitrella patens and in higher plants

We have investigated the structure of glycans N-linked to the proteins of the moss Physcomitrella patens. The structural elucidation was carried out by western blotting using antibodies specific for N-glycan epitopes and by analysis of N-linked glycans enzymatically released from a total protein extract by combination of MALDI–TOF and MALDI–PSD mass spectrometry analysis. Nineteen N-linked oligosaccharides were characterised ranging from high-mannose-type and truncated paucimannosidic-type to complex-type N-glycans harbouring core-xylose, core-(1,3)-fucose and Lewis^a, as previously described for proteins from higher plants. This demonstrates that the processing of N-linked glycans, as well as the specificity of glycosidases and glycosyltransferases involved in this processing, are highly conserved between P. patens and higher plants. As a consequence, P. patens appears to be a new promising model organism for the investigation of the biological significance of protein N-glycosylation in the plant kingdom, taking advantage of the potential for gene targeting in this moss.Abbreviations Asn asparagine - CID collision-induced dissociation - Glc glucose - GlcNAc N-acetylglucosamine - Man mannose - MALDI–TOF MS matrix-assisted laser desorption ionization–time of flight mass spectrometry - PNGase A peptide N-glycosidase A - PSD post-source decay     

Preparing high-quality DNA from moss (Physcomitrella patens)

Physcomitrella patens, a moss, is the only land plant that performs high rates of homologous recombination, making it a valuable tool for functional genomics. Unfortunately, commercially available plant DNA preparation kits are ineffective withPhyscomitrella. Furthermore, labor-intensive CTAB preparations produce low yields, and the DNA is degraded and contaminated. We present a protocol that is faster and doubles the DNA yield obtained from standard procedures. The high-quality DNA prepared is suitable for PCR reactions and Southern blot analysis.     

Stable transformation of the moss Physcomitrella patens

Summary We report the stable transformation of Physcomitrella patens to either G418 or hygromycin B resistance following polyethylene glycol-mediated direct DNA uptake by protoplasts. The method described in this paper was used successfully in independent experiments carried out in our two laboratories. Transformation was assessed by the following criteria: selection of antibiotic-resistant plants, mitotic and meiotic stability of phenotypes after removal of selective pressure and stable transmission of the character to the offspring; Southern hybridisation analysis of genomic DNA to show integration of the plasmid DNA; segregation of the resistance gene following crosses with antibiotic-sensitive strains; and finally Southern hybridisation analysis of both resistant and sensitive progeny. In addition to stable transformants, a heterogeneous class of unstable transformants was obtained.     

Analysis of gametophytic development in the moss,Physcomitrella patens,using auxin and cytokinin resistant mutants

Mutants altered in their response to auxins and cytokinins have been isolated in the moss Physcomitrella patens either by screening clones from mutagenized spores for growth on high concentrations of cytokinin or auxin, in which case mutants showing altered sensitivities can be recognized 3–4 weeks later, or by non-selective isolation of morphologically abnormal mutants, some of which are found to have altered sensitivities. Most of the mutants obtained selectively are also morphologically abnormal. The mutants are heterogeneous in their responses to auxin and cytokinin, and the behaviour of some is consistent with their being unable to make auxin, while that of others may be due to their being unable to synthesize cytokinin. Physiological analysis of the mutants has shown that both endogenous auxin and cytokinin are likely to play important and interdependent roles in several steps of gametophytic development. Although their morphological abnormalities lead to sterility, genetic analysis of some of the mutants has been possible by polyethyleneglycol induced protoplast fusion.Abbreviations NTG N-methyl-N-nitro-N-nitrosoguanidine - NAA 1-naphthalene acetic acid - 2,4D 2,4-dichlorophenoxyacetic acid - BAP 6-benzylaminopurine - IAP 6-( ²isopentenyl) aminopurine - NAR NAA resistant mutants - BAR BAP resistant mutants     

Identification and functional analysis of bifunctional ent-kaurene synthase from the moss Physcomitrella patens

ent-Kaurene is the key intermediate in biosynthesis of gibberellins (GAs), plant hormones. In higher plants, ent-kaurene is synthesized successively by copalyl diphosphate synthase (CPS) and ent-kaurene synthase (KS) from geranylgeranyl diphosphate (GGDP). On the other hand, fungal ent-kaurene synthases are bifunctional cyclases with both CPS and KS activity in a single polypeptide. The moss Physcomitrella patens is a model organism for the study of genetics and development in an early land plant. We identified ent-kaurene synthase (PpCPS/KS) from P. patens and analyzed its function. PpCPS/KS cDNA encodes a 101-kDa polypeptide, and shows high similarity with CPSs and abietadiene synthase from higher plants. PpCPS/KS is a bifunctional cyclase and, like fungal CPS/KS, directly synthesizes the ent-kaurene skeleton from GGDP. PpCPS/KS has two aspartate-rich DVDD and DDYFD motifs observed in CPS and KS, respectively. The mutational analysis of two conserved motifs in PpCPS/KS indicated that the DVDD motif is responsible for CPS activity (GGDP to CDP) and the DDYFD motif for KS activity (CDP to ent-kaurene and ent-16alpha-hydroxykaurene).     

Sliced microRNA targets and precise loop-first processing of MIR319 hairpins revealed by analysis of the Physcomitrella patens degradome

Expression profiling of the 5′ ends of uncapped mRNAs (“degradome” sequencing) can be used to empirically catalog microRNA (miRNA) targets, to probe patterns of miRNA hairpin processing, to examine mRNA decay, and to analyze accumulation of endogenous short interfering RNA (siRNA) precursors. We sequenced and analyzed the degradome of the moss Physcomitrella patens, an important model system for functional genomic analyses in plant evolution. A total of 52 target mRNAs of 27 different Physcomitrella miRNA families were identified. Many targets of both more conserved and less conserved miRNA families encoded putative regulatory proteins. Remnants of MIRNA hairpin processing also populated the degradome data and indicated an unusual “loop-first” mode of precise processing for the MIR319 gene family. Precise loop-first processing was confirmed for native Physcomitrella, rice, and Arabidopsis MIR319 hairpins, as well as an Arabidopsis artificial MIRNA (aMIRNA) based upon a MIR319 backbone. MIR319 is thus a conserved exception to the general rule of loop-last processing of MIRNA hairpins. Loop-first MIR319 processing may contribute to the high efficacy of a widely used MIR319-based strategy for aMIRNA production in plants.     

A cytokinin-sensitive mutant of the moss,Physcomitrella patens,defective in chloroplast division

Summary An X-ray induced mutant (PC22) of the moss,Physcomitrella patens was analysed with respect to its morphology, physiology and suitability for microculture techniques. The mutant protonemata are defective in bud formation and in chloroplast division. As a consequence of the latter, giant chloroplasts are formed which disturb the development of the phragmoplast, the formation of regular cross walls, and cell division. Abnormal cross walls are rich in callose. The actin cytoskeleton was found to be less regularly developed in the mutant than in the wild type. Three-dimensional analysis of the microtubular arrangement with confocal laser scan microscopy demonstrates a close association between spindle- or phragmoplast- and interphase-microtubules. The deficiencies in chloroplast division and in bud formation can partly be compensated for by exogeneously applied cytokinin. The suitability of this particular developmental mutant for further studies was shown by regeneration of protoplasts in microculture and microinjection of the fluorochrome Lucifer yellow into the chloroplast.Abbreviations CLSM confocal laser scan microscope - DAPI diamidinophenyl indole - DiOC 3,3-dihexyloxacarbocyanine iodide - EGTA ethylene glycol-bis-(-amino-ethylether-N,N,N,N-tetraacetic acid - i⁶Ade N⁶-(²-isopentenyladenine) - PIPES piperazine-N, N-bis-2-ethanesulfonic acid - ptDNA chloroplast DNA Devoted to the memory of Prof. Dr. O. Kiermayer, our colleague and friend.     

Cloning and characterization of chalcone synthase from the moss, Physcomitrella patens

Since the early evolution of land plants from primitive green algae, flavonoids have played an important role as UV protective pigments in plants. Flavonoids occur in liverworts and mosses, and the first committed step in the flavonoid biosynthesis is catalyzed by chalcone synthase (CHS). Although higher plant CHSs have been extensively studied, little information is available on the enzymes from bryophytes. Here we report the cloning and characterization of CHS from the moss, Physcomitrella patens. Taking advantage of the available P. patens EST sequences, a CHS (PpCHS) was cloned from the gametophores of P. patens, and heterologously expressed in Escherichia coli. PpCHS exhibited similar kinetic properties and substrate preference profile to those of higher plant CHS. p-Coumaroyl-CoA was the most preferred substrate, suggesting that PpCHS is a naringenin chalcone producing CHS. Consistent with the evolutionary position of the moss, phylogenetic analysis placed PpCHS at the base of the plant CHS clade, next to the microorganism CHS-like gene products. Therefore, PpCHS likely represents a modern day version of one of the oldest CHSs that appeared on earth. Further, sequence analysis of the P. patens EST and genome databases revealed the presence of a CHS multigene family in the moss as well as the 3'-end heterogeneity of a CHS gene. Of the 19 putative CHS genes, 10 genes are expressed and have corresponding ESTs in the databases. A possibility of the functional divergence of the multiple CHS genes in the moss is discussed.     

Induction of budding on chloronemata and caulonemata of the moss,Physcomitrella patens,using isopentenyladenine

The bud-inducing effect of the cytokinin N⁶-(²-isopentenyl)-adenine (i⁶-Ade) was examined in the moss Physcomitrella patens growing in liquid culture. Under these conditions, buds could be induced on chloronemata as well as on caulonemata. By application of i⁶-Ade, bud-formation was accelerated in both types of tissue. The number of buds, their size and their site of development were dependent on the concentration of the cytokinin in the range of 10^-7 M to 10^-5 M. Moreover, the percentage of caulonema cells increased with a cytokinin concentration of 10^-5 M. These results indicate that chloronema cells may also function as target cells for exogenous cytokinins. The composition of proteins from caulonemata and chloronemata of two different species (P. patens and Funaria hygrometrica), grown on solid medium were compared. No differences could be detected between the protein patterns of caulonemata and chloronemata of the same species while between the two species the differences were obvious.Abbreviations i⁶-Ade N⁶-(²-isopentenyladenine) - Da dalton - SDS-PAGE sodium dodecyl sulfate-polyacrylamide gel electrophoresis     

Studies on the growth and development of protoplasts of the moss,Physcomitrella patens,and its control by light

Protoplasts prepared from protonemal cultures of the moss Physcomitrella patens begin to regenerate a new cell wall within 1 h of removal from cellulase. The wall is seen as a gradually thickening mat of fibres when examined by scanning electron microscopy. Development of filaments from protoplasts takes place in the majority of cases only after one or more cell divisions have occurred. The direction of emergence of filaments is random in uniform light, but strongly negatively phototropic in bright unidirectional horizotal light. Filament growth is also strongly negatively phototropic. The influence of unidirectional light can be destroyed by incubating protoplasts in the presence of colchicine. Filaments growing in unidirectional light have cytoplasmic microtubules running along their long axes and in close association with large organelles. These results are discussed in terms of the potential for this system for the study of polarity in plants.     

Accumulation of theanderose in association with development of freezing tolerance in the moss Physcomitrella patens

Mosses are known to have the ability to develop high degrees of resistance to desiccation and freezing stress at cellular levels. However, underlying cellular mechanisms leading to the development of stress resistance in mosses are not understood. We previously showed that freezing tolerance in protonema cells of the moss Physcomitrella patens was rapidly increased by exogenous application of the stress hormone abscisic acid (ABA) [Minami, A., Nagao, M., Arakawa, K., Fujikawa, S., Takezawa, D., 2003a. Abscisic acid-induced freezing tolerance in the moss Physcomitrella patens is accompanied by increased expression of stress-related genes. J. Plant Physiol. 160, 475-483]. Herein it is shown that protonema cells with acquired freezing tolerance specifically accumulate low-molecular-weight soluble sugars. Analysis of the most abundant trisaccharide revealed that the cells accumulated theanderose (G6-alpha-glucosyl sucrose) in close association with enhancement of freezing tolerance by ABA treatment. The accumulation of theanderose was inhibited by cycloheximide, an inhibitor of nuclear-encoded protein synthesis, coinciding with a remarkable decrease in freezing tolerance. Furthermore, theanderose accumulation was promoted by cold acclimation and treatment with hyperosmotic solutes, both of which had been shown to enhance cellular freezing tolerance. These results reveal a novel role for theanderose, whose biological function has been obscure, in high freezing tolerance in moss cells.     

The CNGCb and CNGCd genes from Physcomitrella patens moss encode for thermosensory calcium channels responding to fluidity changes in the plasma membrane

Land plants need precise thermosensors to timely establish molecular defenses in anticipation of upcoming noxious heat waves. The plasma membrane-embedded cyclic nucleotide-gated Ca²⁺ channels (CNGCs) can translate mild variations of membrane fluidity into an effective heat shock response, leading to the accumulation of heat shock proteins (HSP) that prevent heat damages in labile proteins and membranes. Here, we deleted by targeted mutagenesis the CNGCd gene in two Physcomitrella patens transgenic moss lines containing either the heat-inducible HSP-GUS reporter cassette or the constitutive UBI-Aequorin cassette. The stable CNGCd knockout mutation caused a hyper-thermosensitive moss phenotype, in which the heat-induced entry of apoplastic Ca²⁺ and the cytosolic accumulation of GUS were triggered at lower temperatures than in wild type. The combined effects of an artificial membrane fluidizer and elevated temperatures suggested that the gene products of CNGCd and CNGCb are paralogous subunits of Ca²⁺channels acting as a sensitive proteolipid thermocouple. Depending on the rate of temperature increase, the duration and intensity of the heat priming preconditions, terrestrial plants may thus acquire an array of HSP-based thermotolerance mechanisms against upcoming, otherwise lethal, extreme heat waves.     

Photoperiod-regulated expression of the PpCOL1 gene encoding a homolog of CO/COL proteins in the moss Physcomitrella patens

The CONSTANS (CO) protein is a critical regulator of the photoperiodic control of flowering in Arabidopsis thaliana and Oryza sativa. We isolated a cDNA PpCOL1 encoding a homolog of the CO/CO-LIKE (COL) family proteins from a cryptogam Physcomitrella patens. The predicted PpCOL1 protein has N-terminal zinc finger and C-terminal CCT domains, which are conserved in the angiosperm CO/COL proteins. Structurally, PpCOL1 is the most closely related to the Group Ia or Ic proteins, which include AtCO and AtCOL1/2, among diverged members of the family. A transient expression assay using GFP showed that the CCT domain of PpCOL1 contains a nuclear-localizing signal. Northern blotting analyses revealed that the PpCOL1 expression is controlled by the circadian clock, and moreover, it is photoperiodically regulated at a gametophore stage when the rate of sporophyte formation is affected by day length. These observations indicate a possible involvement of PpCOL1 as a nuclear factor in the photoperiodic regulation of reproduction of Physcomitrella.     

in silico identification of protein-protein interactions in Silkworm,Bombyx mori

The Domesticated silkworm, Bombyx mori, an economically important insect has been used as a lepidopteran molecular model next only to Drosophila. Compared to the genomic information in silkworm, the protein-protein interaction data are limited. Therefore experimentally identified PPI maps from five model organisms such as E.coli, C.elegans, D.melanogaster, H. sapiens, S. cerevisiae were used to infer the PPI network of silkworm using the well-recognized Interlog based method. Among the 14623 silkworm proteins, 7736 protein-protein interaction pairs were predicted which include 2700 unique proteins of the silkworms. Using the iPfam interaction domains and the gene expression data, these predictions were validated. In that 625 PPI pairs of predicted network were associated with the iPfam domain-domain interactions and the random network has average of 9. In the gene expression method, the average PCC value of the predicted network and random network was 0.29 and 0.23100±0.00042 respectively. It reveals that the predicted PPI networks of silkworm are highly significant and reliable. This is the first PPI network for the silkworm which will provide a framework for deciphering the cellular processes governing key metabolic pathways in the silkworm, Bombyx mori and available at SilkPPI (http://210.212.197.30/SilkPPI/).     

Mining Dense Overlapping Subgraphs in weighted protein-protein interaction networks

Many methods have been proposed for mining protein complexes from a protein-protein interaction network; however, most of them focus on unweighted networks and cannot find overlapping protein complexes. Since one protein may serve different roles within different functional groups, mining overlapping protein complexes in a weighted protein-protein interaction network has attracted more and more attention recently. In this paper, we propose an effective method, called MDOS (Mining Dense Overlapping Subgraphs), for mining dense overlapping protein complexes (subgraphs) in a weighted protein-protein interaction network. The proposed method can integrate the information about known complexes into a weighted protein-protein interaction network to improve the mining results. The experiment results show that our method mines more known complexes and has higher sensitivity and accuracy than the CODENSE and MCL methods.