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111.
Marie-Françoise Rousseau-Merck Josette Hillion Philippe Jonveaux Philippe Couillin Paule Seité Hans-Jürgen Thiesen Roland Berger 《Human genetics》1993,92(6):583-587
Nine KOX zinc finger genes were localized on four human chromosomes by in situ hybridization of cDNA probes to metaphase chromosomes. KOX1 (ZNF10), KOX11 (ZNF18), and KOX12 (ZNF19) were mapped to chromosome bands 12q24.33, 17p13-p12, and 16q22-q23, respectively. Six other KOX genes were localized on chromosome 19: KOX6 (ZNF14) and KOX13 (ZNF20) to 19p13.3-p13.2, KOX5 (ZNF13) and KOX22 (ZNF27) to 19q13.2-qter, and KOX24 (ZNF28) and KOX28 (ZNF30) to 19q13.4. Pulsed field gel electrophoresis experiments showed that the pairs of KOX genes found on the chromosome bands 12q24.33, 16q22-q23, 19p13.3-p13.2, or 19q13.3-qter lie within 200–300 kb DNA fragments. This suggests the existence of KOX gene clusters on these chromosomal bands. 相似文献
112.
Arginine decarboxylase (ADC), ornithine decarboxylase (ODC), diamine oxydase (DAO) free amine and conjugated amine titers were estimated in leaf explants of Chrysanthemum morifolium Ramat. var. Spinder cultivated in vitro in relation to hormone treatment. Addition of benzyladenine (BA) to a basal medium caused the formation of buds on the explants. BA plus 2,4 dichlorophenoxyacetic acid (2,4 D) caused callus formation and proliferation. Formation of roots was obtained by addition of indolylacetic acid (IAA). Arginine decarboxylase (ADC) ornithine decarboxylase (ODC) and diamine oxidase (DAO) activities increased during the first days of culture when cell multiplication was rapid, followed by a sharp decline as the rate of cell division decreased and differentiation took place. DAO activities increased rapidly in proliferating and growing organs and decreased during maturity. This increase was concomitant with ADC and ODC activities and polyamine content (free and conjugated polyamines). The biosynthesis and oxidation of polyamines which occurred simultaneously in physiological states of intense metabolism such as cell division or organ formation were directly correlated. In callus cultures DAO activity was blocked throughout development and regulated neither the cellular levels of polyamines nor polyamine conjugates. Levels of polyamine conjugates were high in callus cultures throughout development. In foliar explants cultivated on a medium promoting callus, inhibition of ODC activity by DFMO (-DL-difluoromethylornithine, a specific enzyme-activated ODC inhibitor) resulting in an amide deficiency facilated the expression of differentiated cell function; substantial activation of DAO was observed until the emergence of the buds. On a medium promoting bud formation, -OH ethylhydrazine (DAO inhibitor) promoted callus formation without differentiation. In this system DAO activity was blocked and there were high levels of polyamines, especially polyamine conjugates, throughout the culture period. The relationship among free and conjugated polyamines related biosynthetic enzyme activities, DAO activities, cell division and organ formation is discussed.Abbreviations ADC =
arginine decarboxylase
- ODC =
ornithine decarboxylase
- DOA =
diamine oxidase
- DFMA =
-DL-difluoromethylarginine
- DFMO =
-DL-difluoromethylornithine
- Put =
putrescine 相似文献
113.
In ungerminated rice seeds, (Japonica rice variety, CV Tapei 309), the content of free amines (putrescine, spermidine, spermine, tyramine) was higher in seed lots having a low germination frequency compared to those with high germination potential. Conversely, amine conjugates (di-feruloylputrescine, di-feruloylspermidine, diferuloyldiaminopropane and feruloyltyramine) decreased with loss of viability. Thus, these compounds appeared to constitute biochemical markers of seed viability. In seeds with high germination potential, conjugates decreased drastically during germination, with an early and rapid increase in free amines (putrescine, spermidine, tyramine). Arginine decarboxylase (ADC) activity was highest during the germination of high germination potential seeds, its activity gradually declining with loss of viability and being closely correlated with agmatine content. The polyamine biosynthetic inhibitors (-DL-difluoromethylarginine, DFMA, a specific and irreversible inhibitor of ADC; -DL-difluoromethylornithine, DFMO, a specific irreversible inhibitor of ornithine decarboxylase (ODC); cyclohexylammonium sulfate, CHA, inhibitor of spermidine synthase) neither depleted putrescine and spermidine levels nor inhibited germination in high germination potential seeds. In low germination potential seeds, the germination process was inhibited by DFMA or CHA. Application of agmatine resulted in a reversal of inhibition. DFMA inhibited ADC activity in both categories of seeds. In low germination potential seeds treated with CHA no ADC activity was found. These results suggest that amines are involved in the germination process of rice seeds. It appears that amine conjugates may serve as a storage form of amines which, upon enzymatic hydrolysis, could supply the cell with an additional amine reserve and influence cell division and/or cell elongation.Abbreviations ADC
arginine decarboxylase
- ODC
ornithine decarboxylase
- DFMA
-DL-difluoromethylarginine
- DFMO
-DL-difluoromethylornithine
- CHA
cyclohexylammonium sulfate 相似文献
114.
Olga Preobrajenskaya Annie Boullard Fatima Boubrik Manfred Schnarr Josette Rouvière-Yaniv 《Molecular microbiology》1994,13(3):459-467
The major bacterial histone-like protein HU is a small, basic, dimeric protein composed of two closely related subunits. HU is involved in several processes in the bacterial cell such as the initiation of replication, transposition, gene inversion and cell division. It has been suggested that HU could introduce structural changes to the DNA which would facilitate or inhibit the binding of regulatory proteins to their specific sites. In this study we investigated the effect of HU on the binding of LexA protein, the regulator of SOS functions, to three of its specific binding sites. We show that HU can displace LexA from its binding sites on the operators of the lexA, recA and sfiA genes. The lexA operator was the most sensitive while the higher affinity sfiA operator was the least sensitive. Since HU, like its homologue IHF, probably binds DNA in the minor groove we tested the effect of distamycin, a drug which binds to the minor groove, on LexA binding. Like HU, this drug disrupted LexA–operator complexes. These results suggest that distortion of the minor groove of the lexA operators excludes the binding of the repressor to the major groove. 相似文献
115.
Mice treated with high-dose busulfan develop a ‘latent’ form of bone marrow failure characterized by near-normal peripheral blood counts and marrow cellularity, but marked reductions in marrow pluripotent stem cells (CFUs) and myeloid progenitor cells (CFUc). Spleen cell suspensions from control and ‘latent’ mice were placed in liquid culture in the presence of colony-stimulating activity. Cells were harvested at intervals up to 14 days and sub-cultured in agar to assay for CFUc. Baseline splenic CFUc did not differ significantly between control and ‘latent’ mice. Splenic CFUc from control mice increased 50-fold and reached a peak at day 10 in liquid culture. In contrast, splenic CFUc from ‘latent’ mice increased only 7-fold and reached a peak at day 3. Our results indicate that although splenic CFUc are present in normal numbers in ‘latent’ mice, their proliferative capacity is markedly reduced, either as the result of defective CFUc self-renewal or defective feed-in from CFUs or both. 相似文献
116.
Serine β-lactamases contribute widely to the β-lactam resistance phenomena. Unfortunately, the intimate details of their catalytic mechanism remain elusive and subject to some controversy even though many “natural” and “artificial” mutants of these different enzymes have been isolated. This paper is essentially focused on class C β-lactamases, which contain a Tyr (Tyr150) as the first residue of the second conserved element, in contrast to their class A counterparts, in which a Ser is found in the corresponding position. We have modified this Tyr residue by site-directed mutagenesis. On the basis of the three-dimensional structure of the Enterobacter cloacae P99 enzyme, it seemed that residues Glu272 and His314 might also be important. They were similarly substituted. The modified enzymes were isolated and their catalytic properties determined. Our results indicated that His314 was not required for catalysis and that Glu272 did not play an important role in acylation but was involved to a small extent in the deacylation process. Conversely, Tyr150 was confirmed to be central for catalysis, at least with the best substrates. On the basis of a comparison of data obtained for several class C enzyme mutants and in agreement with recent structural data, we propose that the phenolate anion of Tyr150, in conjunction with the alkyl ammonium of Lys315, acts as the general base responsible for the activation of the active-site Ser64 during the acylation step and for the subsequent activation of a water molecule in the deacylation process. The evolution of the important superfamily of penicillin-recognizing enzymes is further discussed in the light of this proposed mechanism. © 1996 Wiley-Liss, Inc. 相似文献
117.
Herga S Brutus A Vitale RM Miche H Perrier J Puigserver A Scaloni A Giardina T 《Biochemical and biophysical research communications》2005,330(2):540-546
Acylase 1 from rat kidney catalyzes the hydrolysis of acyl-amino acids. Sequence alignment has shown that this enzyme belongs to the metalloprotein family M20. Site-directed mutagenesis experiments led to the identification of one functionally important amino acid residue located near one of the zinc coordinating residues, which play a critical role in the enzymatic activity. The D82N- and D82E-substituted forms showed no significant activity and very low activity, respectively, along with a loss of zinc coordination. Molecular modelling investigations indicated a putative role of D82 in ensuring a proper protonation of catalytic histidine. In addition, none of the five cysteine residues present in the rat kidney acylase 1 sequence seemed involved in the catalytic process: the loss of activity induced by the C294A substitution was probably due to a conformational change in the 3D structure. 相似文献
118.
119.
Léon V Rabier J Notonier R Barthelémy R Moreau X Bouraïma-Madjèbi S Viano J Pineau R 《Annals of botany》2005,95(4):609-618
BACKGROUND AND AIMS: Serpentine soils are usually quite infertile, arid and toxic, mainly because they contain high levels of heavy metals such as Ni. The aim of the present work was to assess the effects of Ni on the germinating seeds of Grevillea exul var. rubiginosa, an endemic serpentine Proteaceae of New Caledonia. In addition, the distribution of macronutrients and the Ni levels in germinating seeds were examined. METHODS: Seeds were sown in glass Petri dishes and exposed to increasing concentrations of Ni (5 to 500 mg Ni L(-1)) using Ni chloride, Ni sulphate and Ni acetate. The germination percentage and root length were measured after 40 d. Longitudinal frozen sections of germinating seeds growing in the presence of Ni (500 mg L(-1) for all three salts) were used for X-ray microanalysis and X-ray elemental mapping using scanning electron microscopy (SEM). KEY RESULTS: Ni chloride resulted in the greatest reductions in germination and root growth, particularly at 500 mg L(-1), followed by Ni sulphate and Ni acetate. SEM images revealed Ca crystalline structures in the seed coat for all the samples. S/Ca and Mg/P/K/Mn were found to be distributed differently in Ni-treated samples, whereas they all followed the same pattern in the controls. For all three salts, the Ni added to the medium had accumulated in the seed coat, whereas the endosperm seemed to be devoid of Ni. CONCLUSIONS: It is assumed that the seed coat is able to reduce the amount of Ni entering the seed, and that a high level of Ni induced the mobilization of macronutrients. 相似文献
120.
Veaute X Delmas S Selva M Jeusset J Le Cam E Matic I Fabre F Petit MA 《The EMBO journal》2005,24(1):180-189
The roles of UvrD and Rep DNA helicases of Escherichia coli are not yet fully understood. In particular, the reason for rep uvrD double mutant lethality remains obscure. We reported earlier that mutations in recF, recO or recR genes suppress the lethality of uvrD rep, and proposed that an essential activity common to UvrD and Rep is either to participate in the removal of toxic recombination intermediates or to favour the proper progression of replication. Here, we show that UvrD, but not Rep, directly prevents homologous recombination in vivo. In addition to RecFOR, we provide evidence that RecA contributes to toxicity in the rep uvrD mutant. In vitro, UvrD dismantles the RecA nucleoprotein filament, while Rep has only a marginal activity. We conclude that UvrD and Rep do not share a common activity that is essential in vivo: while Rep appears to act at the replication stage, UvrD plays a role of RecA nucleoprotein filament remover. This activity of UvrD is similar to that of the yeast Srs2 helicase. 相似文献