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1.
The presence of α-amylase inhibitor (αAI), phytohemagglutinin (PHA), and phaseolin was determined by immunochemical and biochemical methods in different members of the subtribe Phaseolinae (Phaseoleae: Fabaceae). Active αAI was present in taxa from the Phaseolus vulgaris–P. coccineus complex (P. vulgaris, P. coccineus, and P. polyanthus), as well as in P. acutifolius in accordance with previous molecular data separating these groups of species from others in the genus. All other Phaseolus species tested lacked α-amylase inhibitory activity, although some of them had immunoreactive polypeptides. αAI was found to be a polymorphic trait among wild and cultivated accessions of P. vulgaris, P. coccineus, and P. acutifolius. The presence of αAI is not exclusive of the genus Phaseolus as one of the Vigna species sampled, V. linearis, also contained α-amylase inhibitory activity. 相似文献
2.
In an attempt to increase the content in essential amino acids methionine and tryptophan of the trimeric storage protein phaseolin, we fused a Met- and Trp-rich sequence to the C-terminus of a phaseolin variant lacking its vacuolar sorting signal, with the aim to target the protein for secretion and accumulation into the apoplast. The fate of the mutant protein, denominated Y3, was studied in transiently transfected tobacco protoplasts. We report that the presence of the additional sequence causes structural defects which inhibit trimerization and lead to partial aggregation of Y3. The protein interacts with the ER chaperone BiP prior to being degraded very rapidly, in a process that does not require vesicular transport from the ER. The rate of degradation of Y3 is higher than that observed for another assembly defective mutant of phaseolin, 360, which remains monomeric and does not aggregate. This indicates that the plant ER quality control machinery can dispose of defective proteins with different kinetics and perhaps mechanisms, depending on the nature of their defect. 相似文献
3.
Vacuolar sorting determinants within a plant storage protein trimer act cumulatively 总被引:2,自引:0,他引:2
The mechanism for vacuolar sorting of seed storage proteins is as yet poorly understood and no receptor has been identified to date. The homotrimeric glycoprotein phaseolin, which is the major storage protein of the common bean, requires a transient tetrapeptide at the C-terminus for its vacuolar sorting. A mutated construct without the tetrapeptide is secreted. We show here that coexpression of wild-type phaseolin and the mutated, secreted form in transgenic tobacco results in the formation of mixed trimers and partial vacuolar delivery of the mutated polypeptides and partial secretion of wild-type polypeptides. This indicates that the sorting signal has a cumulative effect within a phaseolin trimer. The result is discussed in the light of the hypothesized mechanisms for vacuolar sorting of seed storage proteins. 相似文献
4.
Mauricio M. Bustos Fatma A. Kalkan Kathryn A. VandenBosch Timothy C. Hall 《Plant molecular biology》1991,16(3):381-395
An intron-less phaseolin gene [15] was used to express phaseolin polypeptides in transgenic tobacco plants. The corresponding amounts of phaseolin immunoreactive polypeptides and mRNA were similar to those found in plants transformed with a bean genomic DNA sequence that encodes an identical -phaseolin subunit. These results justified the use of the intron-less gene for engineering of the phaseolin protein by oligonucleotide-directed mutagenesis. Each and both of the two Asn residues that serve as glycan acceptors in wild-type phaseolin were modified to prevent N-linked glycosylation. Wild-type (wti–) and mutant phaseolin glycoforms (dgly
1, dgly
2 and dgly
1,2) were localized to the protein body matrix by immunogold microscopy. Although quantitative slot-blot hybridization analysis showed similar levels of phaseolin mRNA in transgenic seed derived from all constructs, seed from the dgly
1 and dgly
2 mutations contained only 41% and 73% of that expressed from the wild-type control; even less (23%) was present in seed of plants transformed with the phaseolin dgly
1,2 gene. Additionally, the profile of 25–29 kDa processed peptides was different for each of the glycoforms, indicating that processing of the full-length phaseolin polypeptides was modified. Thus, although targeting of phaseolin to the protein body was not eliminated by removal of the glycan side-chains, decreased accumulation and stability of the full-length phaseolin protein in transgenic tobacco seed were evident.Abbreviations bp
base pair(s)
- DAF
days after flowering
- GUS
-glucuronidase
- kb
kilobase
- kDa
kilodalton 相似文献
5.
6.
Proteinase A-like enzyme from germinated kidney bean seeds. Its action on phaseolin and vicilin 总被引:3,自引:0,他引:3
Vitalyi Rotari Vitalyi Senyuk Christian Horstmann Antonina Jivotovskaya Iosif Vaintraub 《Physiologia plantarum》1997,100(1):171-177
A cysteine proteinase that possibly participates in the degradation of phaseolin, the main storage protein of kidney bean ( Phaseolus vulgaris L. cv. Moldavian) was isolated from germinating kidney bean seeds and partially characterized. According to its properties it may be classified as a member of a group of homologous cysteine proteinases A, also present in germinating seeds of a number of other plants. The proteinase of this group hydrolyze storage proteins to short peptides. Similarly, the kidney bean proteinase hydrolyzes vicilin, the reserve protein of vetch ( Vicia sativa ). However, its action on phaseolin is limited to the cleavage of subunits into two approximately equal parts and to the splitting off a small number of short peptides. An explanation of phaseolin resistance to the action of this proteinase is proposed on the basis of the differences of its structure from that of other homologous 7S proteins. 相似文献
7.
The TATA-box binding protein (TBP) is one of the 4 DNA-binding proteins that has been shown to associate with the proximal
promoter region (−295) of the gene for bean seed storage protein phaseolin. The −295 promoter is essential for spatial and
temporal control of the phaseolin gene expression. We designed a pair of degenerated primers based on the highly conserved
sequence of the carboxyl-terminal domain of yeast TBP and used PCR to amplify the corresponding sequence from the bean cDNA.
By using the amplified fragment as a probe, we screened a cDNA library derived from poly A(+) RNA from developing bean seeds
and isolated 2 nearly full-length cDNA clones (813 and 826 bp long). The cDNAs encode 2 distinct isoforms of bean TBP, PV1
and PV2, each with an open reading frame of 200 amino acid residues. The 2 cDNA sequences share an 85.8% overall nucleotide
sequence identity, with the coding region showing a higher degree of identity (94.4%) than the 5′- and 3′-untranslated regions
(69%). The deduced amino acid sequence of the bean TBP isoforms differ in only 3 amino acid residues at positions 5, 9, and
16, all located in the amino-terminal region. The carboxyl-terminal domain of 180 amino acid residues shows a high degree
(>82%) of evolutionary sequence conservation with the TBP sequences from other eukaryotic species. This domain possesses the
3 highly conserved structural motifs, namely the 2 direct repeat sequences, a central basic region rich in basic amino acid
residues, and a region similar to the sigma factor of prokaryote. On the basis of this and other findings, we suggest that
higher plants in general may have at least 2 copies of TBP gene, presumably resulting from the global duplication of the genome.
Accession numbers AF015784 and AF015785 at the GenBank. 相似文献
8.
Summary The origin of the molecular heterogeneity of phaseolin was investigated by studying, both in vivo and in vitro, the synthesis and processing of four different banding types of phaseolin in five cultivars of Phaseolus vulgaris L. The results demonstrate: I) Newly-synthesized (unprocessed) phaseolin in all cultivars is composed of three major components. These differ between cultivars, both in charge and Mr. II) The processing of these precursors is highly conserved and consists of the co-translational cleavage of a signal peptide, two glycosylation steps in the endoplasmic reticulum and a further modification inside the protein bodies to give the mature form. III) Some of the molecular heterogeneity of each phaseolin banding type is due to a different extent of glycosylation of its polypeptide components. 相似文献
9.
10.
Keeler Sharon J. Maloney Cathy L. Webber Patricia Y. Patterson Carole Hirata Lee T. Falco S. Carl Rice Janet A. 《Plant molecular biology》1997,34(1):15-29
We have designed protein molecules based on an -helical coiled-coil structure. These proteins can be tailored to complement nutritionally unbalanced seed meals. In particular, these proteins may contain up to 43% mol/mol of the essential amino acid lysine. Genes encoding such proteins were constructed using synthetic oligonucleotides and the protein stability was tested for in vivo by expression in an Escherichia coli model system. A protein containing 31% lysine and 20% methionine (CP 3-5) was expressed in transgenic tobacco seeds utilizing the seed specific bean phaseolin and soybean -conglycinin promoters. Both promoters provided a level of expression in the mature transgenic tobacco seeds which resulted in a significant increase in the total lysine content of the seeds. Several of these transgenic lines were analyzed for three generations to determine the stability of gene expression. Plants transformed with the soybean -conglycinin promoter/CP 3-5 gene consistently expressed the high-lysine phenotype through three generations. However, expression of the high-lysine phenotype in plants transformed with the bean phaseolin/CP 3-5 was variable. This is the first report of a significant increase in seed lysine content due to the seed-specific expression of a de novo protein sequence. 相似文献