Identification of dehydrin-like proteins responsive to chilling in floral buds of blueberry (Vaccinium, section Cyanococcus).

The level of three major polypeptides of 65, 60, and 14 kD increased in response to chilling unit accumulation in floral buds of a woody perennial, blueberry (Vaccinium, section Cynaococcus). The level of the polypeptides increased most dramatically within 300 h of chilling and decreased to the prechilling level with the initiation of budbreak. Cold-hardiness levels were assessed for dormant buds of Vaccinium corymbosum and Vaccinium ashei after different chilling treatments until the resumption of growth. These levels coincided with the level of the chilling-responsive polypeptides. Like some other previously described cold-induced proteins in annual plants, the level of the chilling-induced polypeptides also increased in leaves in response to cold treatment; the chilling-induced polypeptides were heat stable, resisting aggregation after incubation at 95 degrees C for 15 min. By fractionating bud proteins first by isoelectric point (pI) and then by molecular mass, the pI values of the 65- and 60-kD polypeptides were found to be 7.5 to 8.0 and the pI value of the 14-kD polypeptide was judged to be 8.5. Purification of the 65- and 60-kD polypeptides, followed by digestion with endoproteinase Lys-C and sequencing of selected fragments, revealed similarities in amino acid composition between the 65- and 60-kD polypeptides and dehydrins. Indeed, antiserum to the lysine-rich consensus sequence EKKGIMDKIKEKLPG of dehydrin proteins cross-reacted to all three of the major chilling-responsive polypeptides of blueberry, identifying these as dehydrins or dehydrin-like proteins.     

Molecular characterization of L2 lipoxygenase from maize embryos

We investigated the expression and accumulation pattern of lipoxygenaseisoforms throughout the maize plant life. Two forms of lipoxygenase L1and L2 have been identified as acidic proteins of 100 kDa (pI 6.4) and90 kDa (pI 5.5-5.7) which accumulate in dry embryos and in variousorgans of maize seedlings. In young embryos, only the L2 form wasdetected and accumulation of L2 mRNA decreased during embryodevelopment. Identification of lipoxygenases from in vivo and in vitro synthesized proteins indicates that similar levels of both L1and L2 forms accumulated during treatment with abscisic acid, (ABA)gibberellic acid (GA₃) and jasmonic acid (JA). However,differences in the activity of both enzymes were detected. By using anantiserum directed against purified L2 we isolated and characterized apartial cDNA clone of maize embryos encoding a lipoxygenase. The deducedamino acid sequence of L2 cDNA shares 78% identity with the rice L2protein, and 51-56% identity with lipoxygenases from thedicotyledonous plants soybean and Arabidopsis/. DNA blotanalysis indicated that maize contains a family of lipoxygenase geneswhich are presently being characterized.     

mRNAs for two ribosomal proteins are preferentially translated in the chloroplast of Chlamydomonas reinhardtii under conditions of reduced protein synthesis

Previous studies have identified a set of highly phosphorylated proteins of 23–25 kDa accumulated during normal embryogenesis of Zea mays L. and which disappear in early germination. They can be induced precociously in embryos by abscisic acid (ABA) treatment. Here the synthesis and accumulation of this group of proteins and their corresponding mRNAs were examined in ABA-deficient viviparous embryos at different developmental stages whether treated or not with ABA, and in water-stressed leaves of both wild-type and viviparous mutants.During embryogenesis and precocious germination of viviparous embryos the pattern of expression of the 23–25 kDa proteins and mRNAs closely resembles that found in non-mutant embryo development. They are also induced in young viviparous embryos by ABA treatment. In contrast, leaves of ABA-deficient mutants fail to accumulate mRNA in water stress, yet do respond to applied ABA. In water-stressed leaves of wild type plants the mRNAs are induced and translated into 4 proteins with a molecular weight and isoelectric point identical to those found in embryos.These results indicate that the 23–25 kDa protein set is a new member of the recently described class or proteins involved in generalized plant ABA responses.The different pattern of expression for the ABA-regulated 23–25 kDa proteins and mRNAs found in embryo and in vegetative tissues of viviparous mutants is discussed.     

The localization and expression of the class II starch synthases of wheat.

The starch granules of hexaploid wheat (Triticum aestivum) contain a group of three proteins known as SGP-1 (starch granule protein-1) proteins, which have apparent molecular masses of 100, 108, and 115 kD. The nature and role of these proteins has not been defined previously. We demonstrate that these polypeptides are starch synthases that are present in both the starch granule and the soluble fraction at the early stages of wheat endosperm development, but that are exclusively granule bound at mid and late endosperm development. A partial cDNA clone encoding a fragment of the 100-kD protein was obtained by screening a wheat endosperm cDNA expression library using monoclonal antibodies. Three classes of cDNA were subsequently isolated from a wheat endosperm cDNA library by nucleic acid hybridization and were shown to encode the 100-, 108-, and 115-kD proteins. The cDNA sequences are highly homologous to class II starch synthases and have the highest homology with the maize SSIIa (starch synthase IIa) gene. mRNA for the SGP-1 proteins was detected in the leaf, pre-anthesis florets, and endosperm of wheat and is highly expressed in the leaf and in the grain during the early to mid stages of development. We discuss the roles of the SGP-1 proteins in starch biosynthesis in wheat.     

Polyembryony in Citrus. Accumulation of seed storage proteins in seeds and in embryos cultured in vitro.

Citrus exhibits polyembryonic seed development, an apomictic process in which many maternally derived embryos arise from the nucellus surrounding the developing zygotic embryo. Citrus seed storage proteins were used as markers to compare embryogenesis in developing seeds and somatic embryogenesis in vitro. The salt-soluble, globulin protein fraction (designated citrin) was purified from Citrus sinensis cv Valencia seeds. Citrins separated into two subunits averaging 22 and 33 kD under denaturing sodium dodecyl sulfate-polyacrylamide gel electrophoresis. A cDNA clone was isolated representing a citrin gene expressed in seeds when the majority of embryos were at the early globular stage of embryo development. The predicted protein sequence was most related to the globulin seed storage proteins of pumpkin and cotton. Accumulation of 33-kD polypeptides was first detected in polyembryonic Valencia seeds when the majority of embryos were at the globular stage of development. Somatic Citrus embryos cultured in vivo were observed to initiate 33-kD polypeptide accumulation later in embryo development but accumulated these peptides at only 10 to 20% of the level observed in polyembryonic seeds. Therefore, factors within the seed environment must influence the higher quantitative levels of citrin accumulation in nucellar embryos developing in vivo, even though nucellar embryos, like somatic embryos, are not derived from fertilization events.     

盐胁迫下苜蓿中盐蛋白的诱导产生

盐胁迫下苜蓿叶片中蛋白质的合成受到抑制,而其离体叶绿体中蛋白质合成增强,ABA阻碍了后者的蛋白质合成。NaCl胁迫下,“松江”和“肇东”两品种的根和叶中均无新多肽出现。在盐敏感的“松江”品种离体叶绿体中,NaGl诱导70,65,60和43kD4种多肽产生,ABA诱导60和17kD两种多肽产生;在较抗盐的“肇东”品种离体叶绿体中,NaGl诱导83,80kD和43kD3种多肽产生,但100mmol/L NaCl并不诱导83kD多肽出现,ABA无明显作用。两品种的43kD多肽和肇东品种的80kD多肽都存在于类囊体膜上,而松江品种的60kD多肽则存在于叶绿体间质中。     

Pea dehydrins: identification,characterisation and expression

An antiserum raised against dehydrin from maize (Zea mays) recognised several polypeptides in extracts of pea (Pisum sativum) cotyledons. A cDNA expression library was prepared from mRNA of developing cotyledons, screened with the antiserum and positive clones were purified and characterised. The nucleotide sequence of one such clone, pPsB12, contained an open reading frame which would encode a polypeptide with regions of significant amino acid sequence similarity to dehydrins from other plant species.The deduced amino acid sequence of the pea dehydrin encoded by B12 is 197 amino acids in length, has a high glycine content (25.9%), lacks tryptophan and is highly hydrophilic. The polypeptide has an estimated molecular mass of 20.4 kDa and pI=6.4. An in vitro synthesised product from the clone comigrates with one of the in vivo proteins recognised by the antiserum.A comparison of the pea dehydrin sequence with sequences from other species revealed conserved amino acid regions: an N-terminal DEYGNP and a lysine-rich block (KIKEKLPG), both of which are present in two copies. Unexpectedly, pea dehydrin lacks a stretch of serine residues which is conserved in other dehydrins.B12 mRNA and dehydrin proteins accumulated in dehydration-stressed seedlings, associated with elevated levels of endogenous abscisic acid (ABA). Applied ABA induced expression of dehydrins in unstressed seedlings. Dehydrin expression was rapidly reversed when seedlings were removed from the stress or from treatment with ABA and placed in water.During pea cotyledon development, dehydrin mRNA and proteins accumulated in mid to late embryogenesis. Dehydrin proteins were some of the most actively synthesised at about the time of maximum fresh weight and represent about 2% of protein in mature cotyledons.     

Gene sequence,developmental expression,and protein phosphorylation of RAB-17 in maize

The ABA-induced MA12 cDNA from maize, which encodes a set of highly phosphorylated embryo proteins, was used to isolate the corresponding genomic clone. This gene, called RAB-17 (responsive to ABA), encodes a basic, glycine-rich protein (mol. wt. 17 164) containing a cluster of 8 serine residues, seven of them contiguous. It is a homologue of the rice RAB-21 gene (Mundy J, Chua NH, EMBO J 7; 2279–2286, 1988). Phosphoamino acid analysis of the isolated protein indicates that only the serine residues are phosphorylated and a putative casein-type kinase phosphorylatable sequence was identified in the protein. The pattern of expression and in vivo phosphorylation of the RAB-17 protein was studied during maize embryo germination and in calli of both meristematic or embryonic origin. ABA treatment induced the synthesis of RAB-17 mRNA and protein in calli, however, the RAB-17 proteins were found to be highly phosphorylated only in embryos.     

Marked cell-type-specific differences in glycosylation of human interleukin-6

Human interleukin-6 (IL-6) secreted by cytokine- or endotoxin-induced fibroblasts, monocytes, keratinocytes, endometrial stromal cells, and endothelial cells, when analyzed under denaturing and reducing conditions, consists of a set of differentially modified phosphoglycoproteins of molecular mass in the range from 23 to 30 kD (a set of at least three O-glycosylated 23- to 25-kD species and a set of at least three N- and O-glycosylated 28- to 30-kD species). The 23- to 25-kD and 28- to 30-kD fibroblast-derived IL-6 species have been separately purified to homogeneity with the use of a combination of lectin and immunoaffinity chromatography. Glycosidase digestion experiments on such purified preparations confirmed that almost all human fibroblast-derived IL-6 species were O-glycosylated; additionally, the 28- to 30-kD species were N-glycosylated. Amino acid sequencing revealed that the major amino terminus in the fibroblast-derived 23- to 25-kD O-glycosylated IL-6 was at Ala28 whereas the major amino terminus in the 28- to 30-kD N- and O-glycosylated IL-6 was at Val30, suggesting that targeting of newly synthesized IL-6 polypeptides into the two different processing pathways in fibroblasts may be keyed to differences in the signal peptide cleavage site. Unexpectedly, IL-6 "constitutively" secreted by the Epstein-Barr virus (EBV)-infected human and primate (tamarin) B-cell lines designated sfBJAB and sfBT, respectively, consisted of a major apparently unglycosylated 21-kD species and a minor 25-kD N-glycosylated species.(ABSTRACT TRUNCATED AT 250 WORDS)     

Changes in the polypeptide patterns of barley seedlings exposed to jasmonic Acid and salinity

Soluble and thylakoid membrane proteins of jasmonic acid (JA)-treated and salt-stressed barley (Hordeum vulgare L.) seedlings were investigated using 15% sodium dodecyl sulfate-polyacrylamide slab gel electrophoresis. High JA concentrations induced marked quantitative and qualitative changes in polypeptide profiles concerning mainly the proteins with approximately equal mobility, as in NaCl-stressed plants. The most obvious increase in thylakoid polypeptide band intensity was at 55 to 57 kilodaltons (kD). The relative share of some polypeptides with apparent molecular masses above 66 kD and of polypeptides with lower molecular masses in the region of 20.5 to 15 kD was enhanced. At the same time, one new band at 31 to 31.5 kD was well expressed at 25 and 250 micromolar JA concentrations and became discernible in the 100 micromolar NaCl-treated plants. The intensity of some polypeptides of soluble proteins (molecular masses of 60, 47, 37, 30, and 23.4 kD) increased with increasing JA concentration, whereas the intensities of other polypeptide bands (55, 21.4, and 15 kD) decreased. Enhanced levels of 60-, 47-, 34-, and 30-kD polypeptides and reduced levels of 55- and 15-kD polypeptides were present in NaCl-treated plants. The appearance of one new polypeptide, of 25.1 kD, was observed only in NaCl-treated plants. At 100 millimolar NaCl, an eightfold increase in proline content was observed while at 250 micromolar JA, the proline content was threefold over the control. It is hypothesized that exogenously applied jasmonates act as stress agents. As such, they provoke alterations in the proline content and they can modulate typical stress responses by induction of stress proteins.     

Accumulation of dehydrin-like proteins in the mitochondria of cereals in response to cold, freezing, drought and ABA treatment

Background

Dehydrins are known as Group II late embryogenesis abundant proteins. Their high hydrophilicity and thermostability suggest that they may be structure stabilizers with detergent and chaperone-like properties. They are localised in the nucleus, cytoplasm, and plasma membrane. We have recently found putative dehydrins in the mitochondria of some cereals in response to cold. It is not known whether dehydrin-like proteins accumulate in plant mitochondria in response to stimuli other than cold stress.

Results

We have found five putative dehydrins in the mitochondria of winter wheat, rye and maize seedlings. Two of these polypeptides had the same molecular masses in all three species (63 and 52 kD) and were thermostable. Drought, freezing, cold, and exogenous ABA treatment led to higher accumulation of dehydrin-like protein (dlp) 63 kD in the rye and wheat mitochondria. Protein 52 kD was induced by cold adaptation and ABA. Some accumulation of these proteins in the maize mitochondria was found after cold exposition only. The other three proteins appeared to be heat-sensitive and were either slightly induced or not induced at all by all treatments used.

Conclusions

We have found that, not only cold, but also drought, freezing and exogenous ABA treatment result in accumulation of the thermostable dehydrins in plant mitochondria. Most cryotolerant species such as wheat and rye accumulate more heat-stable dehydrins than cryosensitive species such as maize. It has been supposed that their function is to stabilize proteins in the membrane or in the matrix. Heat-sensitive putative dehydrins probably are not involved in the stress reaction and adaptation of plants.     

柠条锦鸡儿CkLEA4基因克隆及表达分析

LEA蛋白是一种与植物抗逆相关的胚胎发育晚期丰富蛋白。该研究从已构建的柠条锦鸡儿干旱胁迫抑制削减杂交文库中筛选到1条LEA蛋白编码基因的部分序列,用RACE技术扩增得到该基因cDNA全长并对其进行了克隆。测序表明该基因cDNA长870bp,其中开放阅读框长510bp,编码169个氨基酸,推测蛋白分子量为17.03kD,等电点为9.3,是一种亲水蛋白。序列比对和系统进化分析表明,该基因属于LEA4基因家族成员,命名为CkLEA4。实时荧光定量PCR检测发现,CkLEA4基因在干旱、ABA和NaCl处理下均受到不同程度的诱导,说明CkLEA4基因可能与柠条锦鸡儿响应逆境胁迫有关。     

A cadherin-like protein in eggs and cleaving embryos of Xenopus laevis is expressed in oocytes in response to progesterone

A new cadherin-like protein (CLP) was identified in oocytes, eggs, and cleavage stage embryos of Xenopus laevis. As a probe for detecting new cadherin proteins, an antiserum was raised to a 17 amino acid peptide derived from a highly conserved region in the cytoplasmic domain of all cadherins which have been sequenced to date. This antipeptide antibody recognized Xenopus E-cadherin and a polypeptide in Xenopus brain extracts similar to N-cadherin, which were independently identified by specific mAbs. In extracts of eggs and midblastula stage embryos the antipeptide antibody recognized specifically a 120-kD glycoprotein that migrated faster on SDS gels than the 140-kD E- and N-cadherin polypeptides. This 120-kD polypeptide was not recognized by the mAbs specific to E- and N-cadherin. In fact, E- and N-cadherin were not detectable in eggs or midblastula stage embryos. The possible relationship of CLP to P-cadherin, which has been identified in mouse tissues, has not yet been determined. CLP was synthesized by large, late stage oocytes. When oocytes were induced to mature in vitro with progesterone it accumulated to the same level found in normally laid eggs. It did not accumulate further to any significant extent during the early cleavage stages. CLP was detected on the surface of stage 8 blastomeres by cell surface biotinylation, but only after the tight junctions of the blastula epithelium were opened by removal of Ca2+. We conclude that CLP is a maternally encoded protein that is the major, if not only, cadherin-related protein present in the earliest stages of Xenopus development, and we propose that it may play a role in the Ca2(+)-dependent adhesion and junction formation between cleavage stage blastomeres.     

Evidence for a precursor molecule of Brazil nut 2 S seed proteins from biosynthesis and cDNA analysis

Summary Seed storage proteins were extracted from Brazil nut (Bertholletia excelsa H.B.K.) seed embryos at various maturation stages. Salt-soluble and water-soluble proteins (globulins and albumins) were separated by gel chromatography and exhaustive dialysis against water. Both fractions were analysed by one- and two-dimensional polyacrylamide gel electrophoresis. Amino acid analysis revealed that both fractions are unusually high in methionine. The albumins consist of a family of low molecular weight polypeptides that are heterogeneous with respect to pI and are identical to the high methionine 2 S proteins described by Youle and Huang (1981). The biosynthesis of this class of proteins in maturing embryos was followed by in vivo labelling combined with immunological studies. Western blotting with monospecific antibodies against purified 2 S albumins and sequencing of a nearly complete cDNA clone revealed that they are synthesized via a precursor polypeptide.     

Heat-stable Proteins and Acquisition of Desiccation Tolerance in Peanut Seeds

The acquisition and induction of desiccation tolerance associated with the expression of heat-stable proteins in the developing peanut (Arachis hypogaea L. ) seeds were studied. Desiccation tolerance of peanut seeds was achieved during 45 to 65 DAP (days after pegging) embryogenesis, while a set of low molecular weight (9 to 15.5 kD) heat-stable polypeptides was preferentially expressed. Slow drying regime applied in vitro to 25 and 35 DAP peanut embryos induced desiccation tolerance and the expression of the same subset of polypeptides. Mature drying treatment enhanced the ability of 65 DAP peanut embryos to withstand fast drying, also increased the heat stability of arachins, the major peanut storage protein, which was heat labile during 45 to 65 DAP embryogenesis. It was concluded that the heat-stable proteins may contribute to desiccation tolerance of the peanut seeds, and the low molecular weight heat-stable polypeptides may confer nonspecifieally heat tolerance on peanut storage proteins which were normally heat labile.     

Characterization of a cDNA encoding rat sterol carrier protein2

Sterol carrier protein2 (SCP2) is a 13.2-kD protein that is thought to be involved in the intracellular transport of cholesterol. Using synthetic oligonucleotides based on the protein sequence of SCP2, a clone (SP43) was isolated from a rat liver cDNA library. The DNA sequence revealed that the cDNA could encode a polypeptide of 273 amino acids (28.9 kD) or 143 amino acids (15.3 kD) in which the carboxy-terminal 123 amino acids are identical to the SCP2 protein. RNA blot hybridization revealed that a variety of rat tissues contain a homologous RNA of a size similar to SP43 (approximately 1.5 kb). Levels of SCP2 mRNA increased in parallel with cytochrome P450scc mRNA in the immature gonadotropin-primed rat ovary. The isolation of a cDNA clone encoding SCP2 will facilitate studies on its role in cholesterol metabolism.     

花生种子耐脱水力的获得与热稳定蛋白的关系

花生（ＡｒａｃｈｉｓｈｙｐｏｇａｅａＬ．）种子的耐脱水能力在果针入土后４５ｄ以后的胚胎发育期逐渐增加,与一组９～１５．５ｋＤ低分子量热稳定蛋白的丰富表达有关。缓慢干燥可以诱导不耐脱水的果针入土后２５ｄ及３５ｄ花生胚获得耐脱水能力并同时诱导胚轴表达这组热稳定蛋白。成熟脱水促进花生胚耐脱水能力的获得,并增加了花生球蛋白的热稳定性。