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71.
72.
The plant growth regulator, abscisic acid (ABA), is synthesized via the oxidative cleavage of an epoxy-carotenoid. Specifically, a double bond is cleaved by molecular oxygen and an aldehyde is formed at the site of cleavage in both products. The Vp14 gene from maize encodes an oxidative cleavage enzyme for ABA biosynthesis and the recombinant VP14 protein catalyzes the cleavage reaction in vitro. The enzyme has a strict requirement for a 9-cis double bond adjacent to the site of cleavage (the 11-12 bond), but shows some plasticity in other features of carotenoids that are cleaved. A kinetic analysis with the 9-cis isomer of five carotenoids displays several substrate activity relationships. One of the carotenoids was not readily cleaved, but inhibited the cleavage of another substrate in mixed assays. Of the remaining four carotenoids used in this study, three of the substrates have similar V(max) values. The V(max) for the cleavage of one carotenoid substrate was significantly higher. Molecular modeling and several three-dimensional quantitative substrate-activity relationship programs were used to analyze these results. In addition to a 9-cis double bond, the presence and orientation of the ring hydroxyl affects substrate binding or the subsequent cleavage. Additional variations that affect substrate cleavage are proposed. 相似文献
73.
Protein modification and peptide analysis are important techniques for the elucidation of the structure and function of enzymes. We describe a new technique for the identification of peptides covalently modified with the maleimide cross-linker o-phenylenebismaleimide (OPBM). The method can identify labeled peptides without the use of sophisticated instrumentation or radioactive markers and takes advantage of the separating power of RPLC and of the sensitivity of immunoblotting. Chloroplast ATPase F1 was labeled at a single cysteine residue by OPBM and trypsinized. Fractions collected by RPLC were bound to polyvinylidene fluoride (PVDF). Despite the small size of the OPBM-labeled peptide (1.84 kDa) it was possible to immobilize it on PVDF by using glutaraldehyde to conjugate the peptide to a larger, unlabeled protein. Polyclonal antibodies raised against the cross-linker N,N',1,5-naphthalenebismaleimide (NBM) cross-react with OPBM. These antibodies detected the presence of OPBM displayed on the PVDF and correctly identified the RPLC fraction containing the OPBM-labeled peptide as verified by both mass spectroscopy and radiolabeling of OPBM. This method could be adapted to detect the presence of linear epitopes recognized by an antibody and is a broadly applicable technique for the immunodetection of peptides. 相似文献
74.
Presenilins play prominent roles in the molecular pathogenesis of Alzheimer's disease and during embryo development. We have isolated a zebrafish presenilin orthologue (pre2), which shows a high degree of sequence identity to the human PS2 protein. Zebrafish pre2 is maternally and ubiquitously expressed during early embryo development, whereas Pre2 protein expression is initiated between 6 and 12 hours post fertilisation (hpf), suggesting strict regulation of pre2 translation. pre2 expression is especially high in neural-crest-derived melanocytes. 相似文献
75.
The chloroplast ATP synthase is strictly regulated so that it is very active in the light (rates of ATP synthesis can be higher than 5 mol/min/mg protein), but virtually inactive in the dark. The subunits of the catalytic portion of the ATP synthase involved in activation, as well as the effects of nucleotides are discussed. The relation of activation to proton flux through the ATP synthase and to changes in the structure of enzyme induced by the proton electrochemical gradient are also presented. It is concluded that the and subunits of CF1 play key roles in both regulation of activity and proton translocation. 相似文献
76.
Arginine 352 (R352) in the sixth transmembrane domain of the cystic fibrosis transmembrane conductance regulator (CFTR) previously
was reported to form an anion/cation selectivity filter and to provide positive charge in the intracellular vestibule. However,
mutations at this site have nonspecific effects, such as inducing susceptibility of endogenous cysteines to chemical modification.
We hypothesized that R352 stabilizes channel structure and that charge-destroying mutations at this site disrupt pore architecture,
with multiple consequences. We tested the effects of mutations at R352 on conductance, anion selectivity and block by the
sulfonylurea drug glipizide, using recordings of wild-type and mutant channels. Charge-altering mutations at R352 destabilized
the open state and altered both selectivity and block. In contrast, R352K-CFTR was similar to wild-type. Full conductance
state amplitude was similar to that of wild-type CFTR in all mutants except R352E, suggesting that R352 does not itself form
an anion coordination site. In an attempt to identify an acidic residue that may interact with R352, we found that permeation
properties were similarly affected by charge-reversing mutations at D993. Wild-type-like properties were rescued in R352E/D993R-CFTR,
suggesting that R352 and D993 in the wild-type channel may interact to stabilize pore architecture. Finally, R352A-CFTR was
sensitive to modification by externally applied MTSEA+, while wild-type and R352E/D993R-CFTR were not. These data suggest that R352 plays an important structural role in CFTR,
perhaps reflecting its involvement in forming a salt bridge with residue D993. 相似文献
77.
Embryo defective 14 encodes a plastid‐targeted cGTPase essential for embryogenesis in maize 下载免费PDF全文
Cuiling Li Yun Shen Robert Meeley Donald R. McCarty Bao‐Cai Tan 《The Plant journal : for cell and molecular biology》2015,84(4):785-799
The embryo defective (emb) mutants in maize genetically define a unique class of loci that is required for embryogenesis but not endosperm development, allowing dissection of two developmental processes of seed formation. Through characterization of the emb14 mutant, we report here that Emb14 gene encodes a circular permuted, YqeH class GTPase protein that likely functions in 30S ribosome formation in plastids. Loss of Emb14 function in the null mutant arrests embryogenesis at the early transition stage. Emb14 was cloned by transposon tagging and was confirmed by analysis of four alleles. Subcellular localization indicated that the EMB14 is targeted to chloroplasts. Recombinant EMB14 is shown to hydrolyze GTP in vitro (Km = 2.42 ± 0.3 μm ). Emb14 was constitutively expressed in all tissues examined and high level of expression was found in transition stage embryos. Comparison of emb14 and WT indicated that loss of EMB14 function severely impairs accumulation of 16S rRNA and several plastid encoded ribosomal genes. We show that an EMB14 transgene complements the pale green, slow growth phenotype conditioned by mutations in AtNOA1, a closely related YqeH GTPase of Arabidopsis. Taken together, we propose that the EMB14/AtNOA1/YqeH class GTPases function in assembly of the 30S subunit of the chloroplast ribosome, and that this function is essential to embryogenesis in plants. 相似文献
78.
Gregory Thyssen Jack C. McCarty Ping Li Johnie N. Jenkins David D. Fang 《Molecular breeding : new strategies in plant improvement》2014,33(2):341-348
Acetolactate synthase (ALS) is responsible for a rate-limiting step in the synthesis of essential branched-chain amino acids. Resistance to ALS-inhibiting herbicides, such as trifloxysulfuron sodium (Envoke®), can be due to mutations in the target gene itself. Alternatively, plants may exhibit herbicide tolerance through reduced uptake and translocation or increased metabolism of the herbicide. The diverse family of cytochrome P450 proteins has been suggested to be a source of novel herbicide metabolism in both weed and crop plants. In this study we generated a mapping population between resistant and susceptible cotton (Gossypium hirsutum L.) cultivars. We found that both cultivars possess identical and sensitive ALS sequences; however, the segregation of resistance in the F2 progeny was consistent with a single dominant gene. Here we report the closely linked genetic markers and approximate physical location on chromosome 20 of the source of Envoke herbicide susceptibility in the cotton cultivar Paymaster HS26. There are no P450 proteins in the corresponding region of the G. raimondii Ulbr. genome, suggesting that an uncharacterized molecular mechanism is responsible for Envoke herbicide tolerance in G. hirsutum. Identification of this genetic mechanism will provide new opportunities for exploiting sulfonylurea herbicides for management of both weeds and crop plants. 相似文献
79.
Jonathan D. Mosley Sara L. Van Driest Emma K. Larkin Peter E. Weeke John S. Witte Quinn S. Wells Jason H. Karnes Yan Guo Lisa Bastarache Lana M. Olson Catherine A. McCarty Jennifer A. Pacheco Gail P. Jarvik David S. Carrell Eric B. Larson David R. Crosslin Iftikhar J. Kullo Gerard Tromp Helena Kuivaniemi David J. Carey Marylyn D. Ritchie Josh C. Denny Dan M. Roden 《PloS one》2013,8(12)
A single mutation can alter cellular and global homeostatic mechanisms and give rise to multiple clinical diseases. We hypothesized that these disease mechanisms could be identified using low minor allele frequency (MAF<0.1) non-synonymous SNPs (nsSNPs) associated with “mechanistic phenotypes”, comprised of collections of related diagnoses. We studied two mechanistic phenotypes: (1) thrombosis, evaluated in a population of 1,655 African Americans; and (2) four groupings of cancer diagnoses, evaluated in 3,009 white European Americans. We tested associations between nsSNPs represented on GWAS platforms and mechanistic phenotypes ascertained from electronic medical records (EMRs), and sought enrichment in functional ontologies across the top-ranked associations. We used a two-step analytic approach whereby nsSNPs were first sorted by the strength of their association with a phenotype. We tested associations using two reverse genetic models and standard additive and recessive models. In the second step, we employed a hypothesis-free ontological enrichment analysis using the sorted nsSNPs to identify functional mechanisms underlying the diagnoses comprising the mechanistic phenotypes. The thrombosis phenotype was solely associated with ontologies related to blood coagulation (Fisher''s p = 0.0001, FDR p = 0.03), driven by the F5, P2RY12 and F2RL2 genes. For the cancer phenotypes, the reverse genetics models were enriched in DNA repair functions (p = 2×10−5, FDR p = 0.03) (POLG/FANCI, SLX4/FANCP, XRCC1, BRCA1, FANCA, CHD1L) while the additive model showed enrichment related to chromatid segregation (p = 4×10−6, FDR p = 0.005) (KIF25, PINX1). We were able to replicate nsSNP associations for POLG/FANCI, BRCA1, FANCA and CHD1L in independent data sets. Mechanism-oriented phenotyping using collections of EMR-derived diagnoses can elucidate fundamental disease mechanisms. 相似文献