Modeling and numerical simulation of biotin carboxylase kinetics: implications for half-sites reactivity

Biotin carboxylase catalyzes the ATP-dependent carboxylation of biotin and is one component of the multienzyme complex acetyl-CoA carboxylase that catalyzes the first committed step in fatty acid synthesis in all organisms. In Escherichia coli, biotin carboxylase exists as a homodimer where each subunit contains a complete active site. In a previous study (Janiyani, K., Bordelon, T., Waldrop, G.L., Cronan Jr., J.E., 2001. J. Biol. Chem. 276, 29864-29870), hybrid dimers were constructed where one subunit was wild-type and the other contained an active site mutation that reduced activity at least 100-fold. The activity of the hybrid dimers was only slightly greater than the activity of the mutant homodimers and far less than the expected 50% activity for completely independent active sites. Thus, there is communication between the two subunits of biotin carboxylase. The dominant negative effect of the mutations on the wild-type active site was interpreted as alternating catalytic cycles of the active sites in the homodimer. In order to test the hypothesis of oscillating catalytic cycles, mathematical modeling and numerical simulations of the kinetics of wild-type, hybrid dimers, and mutant homodimers of biotin carboxylase were performed. Numerical simulations of biotin carboxylase kinetics were the most similar to the experimental data when an oscillating active site model was used. In contrast, alternative models where the active sites were independent did not agree with the experimental data. Thus, the numerical simulations of the proposed kinetic model support the hypothesis that the two active sites of biotin carboxylase alternate their catalytic cycles.     

Co-purification,co-imniunoprecipitation,and coordinate expression of acetyl-coenzyme A carboxylase activity,biotin carboxylase,and biotin carboxyl carrier protein of higher plants

Acetyl-CoA carboxylase (ACCase; EC 6.4.1.2) is a regulatory enzyme of fatty acid synthesis, and in some higher-plant plastids is a multi-subunit complex consisting of biotin carboxylase (BC), biotin-carboxyl carrier protein (BCCP), and carboxyl transferase (CT). We recently described a Nicotiana tabacum L. (tobacco) cDNA with a deduced amino acid sequence similar to that of prokaryotic BC. We here provide further biochemical and immunological evidence that this higher-plant polypeptide is an authentic BC component of ACCase. The BC protein co-purified with ACCase activity and with BCCP during gel permeation chromatography of Pisum sativum L. (pea) chloroplast proteins. Antibodies to the Ricinus communis L. (castor) BC co-precipitated ACCase activity and BCCP. During castor seed development, ACCase activity and the levels of BC and BCCP increased and subsequently decreased in parallel, indicating their coordinate regulation. The BC protein comprised about 0.8% of the soluble protein in developing castor seed, and less than 0.05% of the protein in young leaf or root. Polypeptides cross-reacting with antibodies to castor BC were detected in several dicotyledons and in the monocotyledons Hemerocallis fulva L. (day lily), Iris L., and Allium cepa L. (onion), but not in the Gramineae species Hordeum vulgare L. (barley) and Panicum virgatum L. (switchgrass). The castor endosperm and pea chloroplast ACCases were not significantly inhibited by long-chain acyl-acyl carrier protein, free fatty acids or acyl carrier protein. The BC polypeptide was detected throughout Brassica napus L. (rapeseed) embryo development, in contrast to the multi-functional ACCase isoenzyme which was only detected early in development. These results firmly establish the identity of the BC polypeptide in plants and provide insight into the structure, regulation and roles of higherplant ACCases.Abbreviations ACCase acetyl-CoA carboxylase - ACP acyl carrier protein - BC biotin carboxylase - BCCP biotin carboxyl carrier protein - CT carboxyl transferase - MF multi-functional - MS multi-subunit We thank our colleagues Nicki Engeseth and Vicki Eccleston for advice on fatty acid analysis and Sarah Hunter for providing the developing Iris seed. This work was supported in part by grant MCB 9406466 from NSF. Acknowledgement is also made to the Michigan Agriculture Experiment Station for its support of this research.     

生物素标记HBV RNA探针的制备及应用

本文首次采用ＳＰ６５特殊质粒与人类的乙型肝炎病毒ＤＮＡ重组,制备了Ｂｉｏ－ＨＢＶ ＲＮＡ探针,能特异地与ＨＢＶ ＤＮＡ杂交,将该探针与缺口转移方法标记的Ｂｉｏ－ＨＢＶ ＤＮＡ探针进行了比较,结果显示出Ｂｉｏ－ＨＢＶ ＲＮＡ探针比Ｂｉｏ－ＨＢＶ ＤＮＡ探针的敏感性提高１０倍,并分别应用两种探针同时检测７０例乙肝病人血清中ＨＢＶ ＤＮＡ,阳性率各为３１．４２％、２８．５７％（Ｐ＞０．２５）。对Ｂｉｏ－     

生物素肼化学标记和DIG标记cDNA探针检测柑桔裂皮病类病毒

分别用生物素肼化学标记和ＤＩＧ标记我国柑桔裂皮病类病毒（ＣＥＶｄ）全长克隆ｃＤＮＡ,用以上探讨对不同来源的的核酸样品进行斑点杂交。两种探针可检出病柑桔总核酸的最低含量久为４００ｎｇ／斑点和８０ｎｇ／斑点;生物素肼标记ＣＥＶｄ－ＤＮＡ探讨针,可检出ＣＥＶｄ－ｃＤＮＡ的最低含量约为１０ｐｇ／斑点,研制的ＣＥＶｄ检测试剂盒能检测出发病和隐性带毒苗木中的ＣＥＶｄ,灵敏、特异、简便、快速。试剂盒已使用于检测     

Arabica coffee and olive oils mitigate malathion-induced nephrotoxicity in rat: In silico,immunohistochemical and biochemical evaluation

Malathion (MAL) is an organophosphate insecticide that disrupts the body's antioxidant system; it is one of the earliest organophosphate insecticides extensively used as dust, emulsion, and vapor control a wide variety of insect pests under different conditions. This experimentation aims to evaluate the influence of Arabica coffee oil and olive oil on MAL-induced nephrotoxicity in male rat. 6 sets bearing the same number of animals were applied to this experiment. Each set comprised 10 rats. The first set of rats was used as the control group; rats in the second set were exposed to MAL measured at 100 mg/kg body weight for 7 weeks. Animals in the third and fourth set were treated with 400 mg/kg body weight of Arabica coffee oil and olive oil, and 100 mg/kg body weight of MAL. The fifth, together with the sixth set, were fed with a similar proportion of Arabica coffee oil and olive oil as administered to the third set of rats. After the experimental duration, rats of group 2 showed severe biochemical alterations, including significant increases of creatinine, uric acids, and urea nitrogen (BUN), resulting in marked decreases in serum albumin values and total protein (TP). Severe histopathological and immunohistochemical alterations of kidney tissues were observed in exposed MAL-intoxicated rats. Administration of these oils reduced the detected biochemical, histopathological modifications caused by MAL intoxication. Two active ingredients in Arabica coffee oil (oleic acid) and olive oil (hydroxytyrosol) showed good cyclooxygenase-2 (COX 2) interaction. Moreover, oleic acid from coffee oil and olive oil exhibited impressive association with xanthine oxidase (XO). The current finding showed that coffee oil and olive oil could be appraised as possible and a likely deterrence component against nephrotoxicity brought about by MAL.     

Biotin and glucose dual-targeting,ligand-modified liposomes promote breast tumor-specific drug delivery

Breast cancer is the second leading cause of cancer-related deaths in women. Ligand-modified liposomes are used for breast tumor-specific drug delivery to improve the efficacy and reduce the side effects of chemotherapy; however, only a few liposomes with high targeting efficiency have been developed because the mono-targeting, ligand-modified liposomes are generally unable to deliver an adequate therapeutic dose. In this study, we designed biotin-glucose branched ligand-modified, dual-targeting liposomes (Bio-Glu-Lip) and evaluated their potential as a targeted chemotherapy delivery system in vitro and in vivo. When compared with the non-targeting liposome (Lip), Bio-Lip, and Glu-Lip, Bio-Glu-Lip had the highest cell uptake in 4T1 cells (3.00-fold, 1.60-fold, and 1.95-fold higher, respectively) and in MCF-7 cells (2.63-fold, 1.63-fold, and 1.85-fold higher, respectively). The subsequent cytotoxicity and in vivo assays further supported the dual-targeting liposome is a promising drug delivery carrier for the treatment of breast cancer.     

基因靶位操作的技术与应用

ＴｈｅＡｐｐｒｏａｃｈａｎｄＡｐｐｌｉｃａｔｉｏｎｏｆＧｅｎｅＴａｒｇｅｔｉｎｇＷＡＮＧＹａ－ＰｉｎｇＺＨＵＺｕｏ－Ｙａｎ（ＩｎｓｔｉｔｕｔｅｏｆＨｙｄｒｏｂｉｏｌｏｇｙ,ＴｈｅＣｈｉｎｅｓｅＡｃａｄｅｍｙｏｆＳｃｉｅｎｃｅｓ,Ｗｕｈａｎ４３００７２...     

N-α-biotinylated-neuropeptide Y analogs: Syntheses, cardiovascular properties, and application to cardiac NPY receptor visualization

Two monobiotinylated analogs of neuropeptide Y (NPY) were synthesized by coupling the N-hydroxysuccinimidyl esters of biotin and (6-biotinylamido)-hexanoic acid, respectively, to the free alpha-NH2 group of the side chain protected NPY peptide resin. Crude peptides obtained by HF cleavage were purified by RPLC and their integrities were confirmed by amino acid and mass spectral analysis. As with NPY, both biotinylated analogs inhibited 125I-NPY binding and adenylate cyclase activity of rat cardiac ventricular membranes in a dose-dependent manner. N-alpha-[(6-biotinylamido)-hexanoyl]-NPY exhibited potencies comparable to that of NPY whereas N-alpha-biotinyl-NPY was slightly less potent. In the in vivo experiments, however, both the biotinylated analogs exhibited responses comparable to NPY in increasing arterial blood pressure and decreasing heart rate in anesthetized rats. The responses of the biotinyl analogs were longer lasting than those of NPY. Histochemical studies revealed that N-alpha-[(6-biotinylamido)-hexanoyl]-NPY could label the NPY receptors in rat cardiac ventricular tissues. This labeling was specific since intact NPY inhibited the staining. These studies show that biotinyl-NPY analogs exhibit biological potencies comparable to intact NPY and can therefore be used to further probe the NPY-receptor interaction.     

Failure of layer-by-layer multilayers composed of neutravidin-biotin-labeled antibody for sandwich fluoroimmunosensing

The high-density attachment of active antibodies or other recognition molecules to the capture surface is one of the fundamental processes in route to developing effective biosensors. One method applied frequently to enzymatic sensor systems has been the layer-by-layer assembly of the bioactive surface. Cui et al. [Cui, X., Pei, R., Wang, Z., Yang, F., Ma, Y., Dong, S., Yang, X., 2003. Biosens. Bioelectron. 18, 59–67] extended this concept to immunosensors, where they formed multilayers composed of avidin and biotinylated antibody and reported this construct to be a potent way to form an effective surface for surface plasmon resonance biodetection. We reexamined this concept in an effort to establish a simple method to improve the activity of polystyrene capture surfaces used in sandwich fluoroimmunoassays for the detection of the target, staphylococcal enterotoxin B (SEB). Using multilayers prepared by alternating between NeutrAvidin and either biotinylated mono or polyclonal anti-SEB antibody, we found that virtually all the SEB-binding activity was derived from the final layer added; and that additional layers provided no observable enhancement in fluoroimmunoassay signal strength.