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721.
Early signs of disruption of wheat anther development associated with the induction of male sterility by meiotic-stage water deficit 总被引:10,自引:0,他引:10
Water deficit during meiosis in microspore mother cells of wheat (Triticum aestivum L.) induces male sterility, which reduces grain yield. In plants stressed during meiosis and then re-watered, division of
microspore mother cells seems to proceed normally, but subsequent pollen development is arrested. Stress-affected anthers
generally lack starch. We employed light microscopy in conjunction with histochemistry to compare the developmental anatomy
of water-stress-affected and normal anthers. The earliest effects of stress, detectable between meiosis and young microspore
stages, were the degeneration of meiocytes, loss of orientation of the reproductive cells, and abnormal vacuolization of tapetal
cells. Other effects observed during subsequent developmental stages were deposition of starch in the connective tissue where
it is normally not present, hypertrophy of the middle layer or endothecial cells, and deposition of sporopollenin-like substances
in the anther loculus. The resulting pollen grains lacked both starch and intine. These results suggest that abnormal degeneration
of the tapetum in water-stressed anthers coupled with a loss of orientation of the reproductive cells could be part of early
events leading to abortion of microspores.
Received: 19 July 1996 / Revision accepted: 6 November 1996 相似文献
722.
The conversion of 4-γ,γ-dimethylallyltryptophan to 4-[4-hydroxy-3-methyl-Δ2-butenyl]-tryptophan was catalyzed by the 60–80% ammonium sulphate fraction from Claviceps purpurea PRL 1980. The conversion was stimulated by NADPH. Two major unidentified products in the incubation mixture were not significantly incorporated into elymoclavine when they were added to cultures of C. purpurea PRL 1980. 相似文献
723.
724.
Babak Behnam Azad Vanessa A. Rota Daniel Breadner Savita Dhanvantari Leonard G. Luyt 《Bioorganic & medicinal chemistry》2010,18(3):1265-1272
Novel Glucagon-Like Peptide-1 (GLP-1) derivatives containing the metal chelator DOTA (1,4,7,10-tetraazacyclododecane-1,4,7,10-tetraacetic acid) and naturally occurring Indium (113/115In) were prepared using solid-phase Fmoc methods. All synthesized peptides contained d-Ala-8, a modification known to improve resistance towards degradation by dipeptidyl peptidase-IV. The effect of increased distance between DOTA and the peptide chain was investigated using an (aminoethyl) ethoxy acetyl linker, in order to reduce steric effects imposed by DOTA. Placement of linker and DOTA moieties were also varied within the GLP-1 sequence to test for optimal metal-complex location. The binding affinity of the peptide derivatives was determined in vitro with Chinese hamster ovary cells stably transfected with a human GLP-1 receptor (CHO/GLP-1R) cell line and was shown to be in the nM range. Gamma camera imaging of an insulinoma cell line was carried out using 111In-labeled peptides. Our results suggest that the prepared GLP-1 derivatives are suitable imaging probes for studying pancreatic islet function in vivo. 相似文献
725.
AtSUC2 (At1g22710) encodes a phloem-localized sucrose (Suc)/H(+) symporter necessary for efficient Suc transport from source tissues to sink tissues in Arabidopsis (Arabidopsis thaliana). AtSUC2 is highly expressed in the collection phloem of mature leaves, and its function in phloem loading is well established. AtSUC2, however, is also expressed strongly in the transport phloem, where its role is more ambiguous, and it has been implicated in mediating both efflux and retrieval to and from flanking tissues via the apoplast. To characterize the role of AtSUC2 in controlling carbon partitioning along the phloem path, AtSUC2 cDNA was expressed from tissue-specific promoters in an Atsuc2 mutant background. Suc transport in this mutant is highly compromised, as indicated by stunted growth and the accumulation of large quantities of sugar and starch in vegetative tissues. Expression of AtSUC2 cDNA from the 2-kb AtSUC2 promoter was sufficient to restore growth and carbon partitioning to nearly wild-type levels. The GALACTINOL SYNTHASE promoter of Cucumis melo (CmGAS1p) confers expression only in the minor veins of mature leaves, not in the transport phloem of larger leaf veins and stems. Mutant plants expressing AtSUC2 cDNA from CmGAS1p had intermediate growth and accumulated sugar and starch, but otherwise they had normal morphology. These characteristics support a role for AtSUC2 in retrieval but not efflux along the transport phloem and show that the only vital function of AtSUC2 in photoassimilate distribution is phloem loading. In addition, Atsuc2 mutant plants, although debilitated, do grow, and AtSUC2-independent modes of phloem transport are discussed, including an entirely symplastic pathway from mesophyll cells to sink tissues. 相似文献
726.
727.
728.
Among the various expression systems employed for the over-production of proteins, bacteria still remains the favorite choice
of a Protein Biochemist. However, even today, due to the lack of post-translational modification machinery in bacteria, recombinant
eukaryotic protein production poses an immense challenge, which invariably leads to the production of biologically in-active
protein in this host. A number of techniques are cited in the literature, which describe the conversion of inactive protein,
expressed as an insoluble fraction, into a soluble and active form. Overall, we have divided these methods into three major
groups: Group-I, where the factors influencing the formation of insoluble fraction are modified through a stringent control of the cellular
milieu, thereby leading to the expression of recombinant protein as soluble moiety; Group-II, where protein is refolded from the inclusion bodies and thereby target protein modification is avoided; Group-III, where the target protein is engineered to achieve soluble expression through fusion protein technology. Even within the
same family of proteins (e.g., tyrosine kinases), optimization of standard operating protocol (SOP) may still be required
for each protein’s over-production at a pilot-scale in Escherichia coli. However, once standardized, this procedure can be made amenable to the industrial production for that particular protein
with minimum alterations. 相似文献
729.
730.
J. Attieh K. F. Kleppinger-Sparace C. Nunes S. A. Sparace & H. S. Saini 《Plant, cell & environment》2000,23(2):165-174
The physiological relevance of a novel thiol methyltransferase from cabbage, and its possible role in sulphur metabolism have been investigated. The enzyme was absent from the chloroplast, the site of sulphate reduction, and was localized in the cytosol. Potential substrates were initially screened on the basis of their ability to inhibit the methylation of iodide, a previously known substrate for the enzyme. Thiocyanate, 4,4 ′ ‐thiobisbenzenethiol, thiophenol, and thiosalicylic acid were identified as possible substrates. Methylation of these thiols by the purified enzyme using [Methyl‐3H]S‐adenosyl‐ L ‐methionine confirmed their nature as substrates. The purified enzyme strongly preferred thiocyanate as a methyl acceptor. The enzyme had Km values of 11, 51, 250 and 746 mmol m ? 3 for thiocyanate, 4,4 ′ ‐thiobisbenzenethiol, thiophenol and thiosalicylic acid, respectively. The identity of methylthiocyanate as the product of thiocyanate methylation by the purified enzyme was confirmed by mass spectrometry. The enzyme was strictly associated with glucosinolate‐containing plants. Thiol substrates of the enzyme are known products of glucosinolate hydrolysis. Our observations indicate that this enzyme could be involved in the detoxification of reactive thiols produced upon glucosinolate degradation in these plants. 相似文献