Yeast and animals use mitogen-activated protein (MAP) kinase cascades to mediate stress and extracellular signals. We have tested whether MAP kinases are involved in mediating environmental stress responses in plants. Using specific peptide antibodies that were raised against different alfalfa MAP kinases, we found exclusive activation of p44MMK4 kinase in drought-and cold-treated plants. p44MMK4 kinase was transiently activated by these treatments and was correlated with a shift in the electro- kinases, also known as extracellular signal-regulated kinases (ERKs), were originally found to be involved in differentiation and reentry into the cell cycle. Later, mammalian osmoregulated and stress-activated MAP kinases were discovered. The family of SAPK (stress-activated protein kinase)/JNK (Jun N-terminal kinase)/p38 is activated by various types of stress (13-15). JNK and p38 can functionally replace the HOG1 yeast MAP kinase that is necessary for adaptation to high extracellular osmolarity. Genetic and biochemical studies in yeast revealed several distinct MAP kinase cascades in signaling different extracellular stimuli. These kinase cascades are important regulators in pheromone response, pseudohyphal differentiation, and osmolarity responses (16,17).Activation of MAP kinases requires tyrosine and threonine phosphorylation (4). The highly conserved threonine and tyrosine residues are located close to kinase domain VIII and seem to be also important for activation of plant MAP kinases (7). Phosphorylation of these crucial residues is performed by a dual specific MAP kinase kinase that in turn has to be activated by a serine/threonine MAP kinase kinase kinase (18,19). These kinase cascades seem to be conserved in modular form throughout evolution, mediating distinct signal transduction pathways. Isolation of homologous upstream kinases from plants (20-23) indicate the presence of similar biochemical modules for extracellular signal transmission.Despite the fact that all of the components of MAP kinase modules have been identified in plants, little is known about their functions. An Arabidopsis MAP kinase was proposed to be involved in auxin signal transduction (24). Genetic studies and the isolation of the CTR1 gene suggest that a MAP kinase cascade may also be involved in mediating ethylene responses (21). Recently, MAP kinases have been demonstrated to be activated upon cutting of leaves (22,28) and exposure of cells to fungal elicitor (25). Increased transcript levels of genes encoding a MAP kinase module have been taken as evidence for the involvement of a MAP kinase pathway in signaling touch, cold, salt, and water stress (26).In this article, we present evidence that environmental stresses are mediated by posttranslational activation of a specific MAP kinase in alfalfa. The MAP kinase pathway appears to mediate only specific forms of stress, because cold and drought, but not high temperature and osmotic stress, induce the activation of this pathway. MATERIALS AND METHODSIsolation, Sequence Analysis, ...
We show that methylated lysine 9 of histone H3 (Me9H3) is a marker of heterochromatin in divergent animal species. It localises to both constitutive and facultative heterochromatin and replicates late in S-phase of the cell cycle. Significantly, Me9H3 is enriched in the inactive mammalian X chromosome (Xi) in female cells, as well as in the XY body during meiosis in the male, and forms a G-band pattern along the arms of the autosomes. Me9H3 is a constituent of imprinted chromosomes that are repressed. The paternal and maternal pronuclei in one-cell mouse embryos show a striking non-equivalence in Me9H3: the paternal pronucleus contains no immunocytologically detectable Me9H3. The levels of Me9H3 on the parental chromosomes only become equivalent after the two-cell stage. Finally, we provide evidence that Me9H3 is neither necessary nor sufficient for localisation of heterochromatin protein 1 (HP1) to chromosomal DNA.
Matrix sequestration of matrix metalloproteinases may be important for the facilitation of remodelling events and the migration of cells through the extracellular matrix. Using an ELISA technique we studied the ability of pro and active forms of gelatinases A and B (GLA and GLB) to bind to matrix components and the contribution made by the different enzyme domains. Pro and active forms of GLA and GLB bound to type-I and type-IV collagens, gelatin and laminin films. Binding to collagens occurred exclusively via the N-terminal portion of the molecule in both of the gelatinases; deletion of the fibronectin-like domain in GLA abolished binding. Fibronectin was shown to compete with GLA, confirming that binding occurs through this domain. GLA and GLB competed for binding to collagen type I, whereas collagenase and stromelysin bound to different sites and could be co-localized with the gelatinases. We conclude that gelatinases have different binding specificities from those previously documented for stromelysin and collagenase, which bind through their C-terminal domains to collagen fibrils.
Mechanical injury in plants induces responses that are involved not only in healing but also in defense against a potential pathogen. To understand the intracellular signaling mechanism of wounding, we have investigated the involvement of protein kinases. Using specific antibodies, we showed that wounding alfalfa leaves specifically induces the transient activation of the p44MMK4 kinase, which belongs to the family of mitogen-activated protein kinases. Whereas activation of the MMK4 pathway is a post-translational process and was not blocked by [alpha]-amanitin and cycloheximide, inactivation depends on de novo transcription and translation of a protein factor(s). After wound-induced activation, the MMK4 pathway was subject to a refractory period of 25 min, during which time restimulation was not possible, indicating that the inactivation mechanism is only transiently active. After activation of the p44MMK4 kinase by wounding, transcript levels of the MMK4 gene increased, suggesting that the MMK4 gene may be a direct target of the MMK4 pathway. In contrast, transcripts of the wound-inducible MsWIP gene, encoding a putative proteinase inhibitor, were detected only several hours after wounding. Abscisic acid, methyl jasmonic acid, and electrical activity are known to mediate wound signaling in plants. However, none of these factors was able to activate the p44MMK4 kinase in the absence of wounding, suggesting that the MMK4 pathway acts independently of these signals.
It is known that two proteins of the cellulosomal complex of Clostridium thermocellum (SL and SS) together degrade crystalline cellulose. SL is a glycoprotein of 210,000 Da which enhances the binding to cellulose and the activity of SS, an endoglucanase of 83,000 Da. We have previously reported the cloning of a DNA fragment encoding the N-terminal end of the SL protein using antibodies raised against the native protein. A chromosomal walking approach using an EcoRI and a Bam HI-Sau3A gene library allowed us to isolate the C-terminal end of the gene. Sequencing of both fragments revealed the existence of a leader peptide as has been found in cellulases of the same organism. This leader sequence is followed by a stretch of 14 amino acids that is identical to the N-terminal amino acid sequence of the native secreted protein. The open reading frame (ORF) of this gene encodes a protein of 196,800 Da and is followed by a hairpin loop that could be involved in transcription termination. Within the open reading frame (ORF), we found nine internal repeated elements (IREs) of about 500 nucleotides each. Seven of these sequences displayed 98-100% homology and were located adjacent to each other within the structural gene without intervening regions. The remaining two, located on the N-terminal end of the gene, showed a significantly lower homology. Bearing in mind the inherent instability of reiterated regions, we confirmed the authenticity of our clones by Southern blot analysis using chromosomal C. thermocellum DNA and ruled out the possibility of rearrangements during the cloning and sequencing process. The sequenced gene is designated cipA and the encoded SL protein CipA.
The complete nucleotide sequence of the xynA gene coding for a xylanase (XYLA) expressed by Pseudomonas fluorescens subspecies cellulosa, has been determined. The structural gene consists of an open reading frame of 1833 bp followed by a TAA stop codon. Confirmation of the nucleotide sequence was obtained by comparing the predicted amino acid sequence with that derived by N-terminal analysis of purified forms of the xylanase. The signal peptide present at the N terminus of mature XYLA closely resembles signal peptides of other secreted proteins. Truncated forms of the xylanase gene, in which the sequence encoding the N-terminal signal peptide had been deleted, still expressed coli. XYLA contains domains which are homologous to an endoglucanase expressed by the same organism. These structures include serine-rich sequences. Bal31 deletions of xynA revealed the extent to which these conserved sequences, in XYLA, were essential for xylanase activity. Downstream of the TAA stop codon is a G + C-rich region of dyad symmetry (delta G = 24 kcal) characteristic of E. coli Rho-independent transcription terminators.
The physiological roles of chicken LHRH-I and -II (cLHRH-I and -II) in the regulation of gonadotrophin release were investigated in the domestic chicken. Measurements of the neuropeptides, using specific radioimmunoassays, in brain sections cut in three planes or in grossly dissected brain areas, showed that cLHRH-II occurs in low amounts throughout the brain whereas cLHRH-I is most abundant in the diencephalon. Within the diencephalon, the largest amount of cLHRH-I occurred in the median eminence of the hypothalamus. The amount of cLHRH-I in the median eminence was higher (P less than 0.05) in laying than in out-of-lay hens. No cLHRH-II was detected in the median eminence in either reproductive state. The amount of cLHRH-I in the hypothalamus was increased (P less than 0.05) in cockerels at the onset of puberty and in somatically immature birds after castration. There were no correlated changes in the amounts of hypothalamic cLHRH-II measured in the same experimental samples. Active immunization of laying hens against cLHRH-I but not against cLHRH-II resulted in the complete regression of the reproductive system and a depression in the concentration of plasma LH. These observations, taken together, suggest that gonadotrophin secretion in the hen is more likely to be directly regulated by cLHRH-I than by cLHRH-II.
The role of chicken vasoactive intestinal polypeptide (cVIP) as a prolactin-releasing factor was investigated in incubating bantam hens. Specific antibodies were raised against cVIP (anti-cVIP) for passive immunization studies, to develop a radioimmunoassay and to localize VIP neurones immunohistochemically in the hypothalamus. The concentration of plasma prolactin decreased after i.v. injection of anti-cVIP: this low concentration being maintained by daily injection of anti-cVIP. Incubating hens injected daily with anti-cVIP deserted their nests after 4.5 +/- 0.6 days and returned to lay after 20 +/- 1 days. This disruption of incubation behaviour with anti-cVIP was prevented by concomitant, twice daily, injections of 30 IU ovine prolactin. The concentration of plasma LH was not immediately affected after injection of anti-cVIP but increased when the hens deserted their nests. The amount of cVIP, measured by radioimmunoassay, was significantly higher in the median eminence (P less than 0.01) and medial basal hypothalamus (P = 0.05) in incubating than in laying hens. No differences were seen in the amounts of cVIP in the preoptic hypothalamus or in a part of the forebrain including the nucleus accumbens, between laying and incubating hens. Morphological observations were made on immunohistochemically identified cVIP cell bodies in the medial basal hypothalamus. These showed that cVIP cell number, cell area and density of immunoreactive product were significantly (P less than 0.05) greater in incubating than in laying hens. Further, the density of cVIP reaction product in the anterior median eminence was also significantly (P less than 0.01) greater in incubating than in laying hens.(ABSTRACT TRUNCATED AT 250 WORDS)
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