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1.
2.
Kashyap M Das D Preet R Mohapatra P Satapathy SR Siddharth S Kundu CN Guchhait SK 《Bioorganic & medicinal chemistry letters》2012,22(7):2474-2479
Scaffold hybridization of several natural and synthetic anticancer leads led to the consideration of indenoindolones as potential novel anticancer agents. A series of these compounds were prepared by a diversity-feasible synthetic method. They were found to possess anticancer activities with higher potency compared to etoposide and 5-fluorouracil in kidney cancer cells (HEK 293) and low toxicity to corresponding normal cells (Vero). They exerted apoptotic effect with blocking of cell cycle at G2/M phase. 相似文献
3.
Satapathy AK Pavankumar TL Bhattacharjya S Sankaranarayanan R Ray MK 《The FEBS journal》2008,275(8):1835-1851
RecD is essential for growth at low temperature in the Antarctic psychrotrophic bacterium Pseudomonas syringae Lz4W. To examine the essential nature of its activity, we analyzed wild-type and mutant RecD proteins with substitutions of important residues in each of the seven conserved helicase motifs. The wild-type RecD displayed DNA-dependent ATPase and helicase activity in vitro, with the ability to unwind short DNA duplexes containing only 5' overhangs or forked ends. Five of the mutant proteins, K229Q (in motif I), D323N and E324Q (in motif II), Q354E (in motif III) and R660A (in motif VI) completely lost both ATPase and helicase activities. Three other mutants, T259A in motif Ia, R419A in motif IV and E633Q in motif V exhibited various degrees of reduction in ATPase activity, but had no helicase activity. While all RecD proteins had DNA-binding activity, the mutants of motifs IV and V displayed reduced binding, and the motif II mutant showed a higher degree of binding to ssDNA. Significantly, only RecD variants with in vitro ATPase activity could complement the cold-sensitive growth of a recD-inactivated strain of P. syringae at 4 degrees C. These results suggest that the requirement for RecD at lower temperatures lies in its ATP-hydrolyzing activity. 相似文献
4.
5.
Ajit K. Satapathy Donald J. Crampton Benjamin B. Beauchamp Charles C. Richardson 《The Journal of biological chemistry》2009,284(21):14286-14295
The multifunctional protein encoded by gene 4 of bacteriophage T7 (gp4)
provides both helicase and primase activity at the replication fork. T7 DNA
helicase preferentially utilizes dTTP to unwind duplex DNA in vitro
but also hydrolyzes other nucleotides, some of which do not support helicase
activity. Very little is known regarding the architecture of the nucleotide
binding site in determining nucleotide specificity. Crystal structures of the
T7 helicase domain with bound dATP or dTTP identified Arg-363 and Arg-504 as
potential determinants of the specificity for dATP and dTTP. Arg-363 is in
close proximity to the sugar of the bound dATP, whereas Arg-504 makes a
hydrogen bridge with the base of bound dTTP. T7 helicase has a serine at
position 319, whereas bacterial helicases that use rATP have a threonine in
the comparable position. Therefore, in the present study we have examined the
role of these residues (Arg-363, Arg-504, and Ser-319) in determining
nucleotide specificity. Our results show that Arg-363 is responsible for dATP,
dCTP, and dGTP hydrolysis, whereas Arg-504 and Ser-319 confer dTTP
specificity. Helicase-R504A hydrolyzes dCTP far better than wild-type
helicase, and the hydrolysis of dCTP fuels unwinding of DNA. Substitution of
threonine for serine 319 reduces the rate of hydrolysis of dTTP without
affecting the rate of dATP hydrolysis. We propose that different nucleotides
bind to the nucleotide binding site of T7 helicase by an induced fit
mechanism. We also present evidence that T7 helicase uses the energy derived
from the hydrolysis of dATP in addition to dTTP for mediating DNA
unwinding.Helicases are molecular machines that translocate unidirectionally along
single-stranded nucleic acids using the energy derived from nucleotide
hydrolysis
(1–3).
The gene 4 protein encoded by bacteriophage T7 consists of a helicase domain
and a primase domain, located in the C-terminal and N-terminal halves of the
protein, respectively (4). The
T7 helicase functions as a hexamer and has been used as a model to study
ring-shaped replicative helicases. In the presence of dTTP, T7 helicase binds
to single-stranded DNA
(ssDNA)3 as a hexamer
and translocates 5′ to 3′ along the DNA strand using the energy of
hydrolysis of dTTP
(5–7).
T7 helicase hydrolyzes a variety of ribo and deoxyribonucleotides; however,
dTTP hydrolysis is optimally coupled to DNA unwinding
(5).Most hexameric helicases use rATP to fuel translocation and unwind DNA
(3). T7 helicase does hydrolyze
rATP but with a 20-fold higher Km as compared with dTTP
(5,
8). It has been suggested that
T7 helicase actually uses rATP in vivo where the concentration of
rATP is 20-fold that of dTTP in the Escherichia coli cell
(8). However, hydrolysis of
rATP, even at optimal concentrations, is poorly coupled to translocation and
unwinding of DNA (9). Other
ribonucleotides (rCTP, rGTP, and rUTP) are either not hydrolyzed or the poor
hydrolysis observed is not coupled to DNA unwinding
(8). Furthermore, Patel et
al. (10) found that the
form of T7 helicase found in vivo, an equimolar mixture of the
full-length gp4 and a truncated form lacking the zinc binding domain of the
primase, prefers dTTP and dATP. Therefore, in the present study we have
restricted our examination of nucleotides to the deoxyribonucleotides.The nucleotide binding site of the replicative DNA helicases, such as T7
gene 4 protein, bind nucleotides at the subunit interface
(Fig. 1) located between two
RecA-like subdomains that bind ATP
(11,
12). The location of the
nucleotide binding site at the subunit interface provides multiple
interactions of residues with the bound NTP. A number of cis- and
trans-acting amino acids stabilize the bound nucleotide in the
nucleotide binding site and also provide for communication between subunits
(13–15).
Earlier reports revealed that the arginine finger (Arg-522) in T7 helicase is
positioned to interact with the γ-phosphate of the bound nucleotide in
the adjacent subunit (12,
16). However, His-465
(phosphate sensor), Glu-343 (catalytic base), and Asp-424 (Walker motif B)
interacts with the γ-phosphate of the bound nucleotide in the same
subunit (12,
17,
18). The arginine finger and
the phosphate sensor have been proposed to couple NTP hydrolysis to DNA
unwinding. Substitution of Glu-343, the catalytic base, eliminates dTTP
hydrolysis (19), and
substitution of Asp-424 with Asn leads to a severe reduction in dTTP
hydrolysis (20). The conserved
Lys-318 in Walker motif A interacts with the β-phosphate of the bound
nucleotide and plays an important role in dTTP hydrolysis
(21).Open in a separate windowFIGURE 1.Crystal structure of T7 helicase. A, crystal structure of
the hexameric helicase C-terminal domain of gp4
(17). The structure reveals a
ring-shaped molecule with a central core through which ssDNA passes. The
inset shows the interface between two subunits of the helicase with
adenosine 5′-{β,γ-imidol}-triphosphate in the nucleotide
binding site. B, the nucleotide binding site of a monomer of the gp4
with the crucial amino acid residues reported earlier and in the present study
is shown in sticks. The crystal structures of the T7 gene 4 helicase
domain (12) with bound dTTP
(C) and dATP (D). The structures shown are the nucleotide
binding site of T7 helicase as viewed in Pymol by analyzing the PDB files 1cr1
and 1cr2 (12). Arg-504 and
Tyr-535 sandwiches the base of the bound dNTP. Additionally, Arg-504 forms a
hydrogen bridge with dTTP. Arg-363 interacts specifically with the 3-OH group
of bound dATP. AMPPNP, adenosine
5′-(β,γ-imino)triphosphate.Considering the wealth of information on the above residues that are
involved in the hydrolysis of dTTP and the coupling of hydrolysis to
unwinding, it is intriguing that little information is available on nucleotide
specificity. Several crystal structures of T7 helicase in complex with a
nucleotide triphosphate are available. However, most of structures were
crystallized with a non-hydrolyzable analogue of dTTP or the nucleotide was
diffused into the crystal. The crystal structure of the T7 helicase domain
bound with dTTP or dATP was reported by Sawaya et al.
(12). These structures
assisted us in identifying two basic residues (Arg-363 and Arg-504) in close
proximity to the sugar and base of the bound nucleotide whose orientation
suggested that these residues could be involved in nucleotide selection.
Arg-504 together with Tyr-535 sandwich the base of the bound nucleotide at the
subunit interface of the hexameric helicase
(Fig. 1). Arg-504 and Tyr-535
are structurally well conserved in various helicases
(12). However, Arg-504 could
make a hydrogen bridge with the OH group of thymidine, thus suggesting a role
in dTTP specificity. On the other hand, Arg-363 is in close proximity
(∼3.4 Å) to the sugar 3′-OH of bound dATP, whereas in the
dTTP-bound structure this residue is displaced by 7.12 Å
(Fig. 1) from the equivalent
position. Consequently Arg-363 could play a role in dATP binding. The crystal
structures do not provide any information on different interaction of residues
with the phosphates of dATP and dTTP. However, alignment of the residues in
the P-loops of different hexameric helicases reveals that the serine adjacent
to the invariant lysine at position 319 (Ser-319) is conserved in
bacteriophages, whereas bacterial helicases have a conserved threonine in the
equivalent position (supplemental Fig. 1). Bacterial helicases use rATP in the
DNA unwinding reactions. whereas T7 helicase preferentially uses dTTP, and
bacteriophage T4 gene 41 uses rGTP or rATP
(22).Although considerable information is available on the role of residues in
nucleotide binding and dTTP hydrolysis, very little is known on the
determinants of nucleotide specificity. In the present study we made an
attempt to address the role of a few selected residues (Arg-363, Arg-504, and
Ser-319) in determining nucleotide specificity, especially dTTP and dATP, both
of which are hydrolyzed and mediate DNA unwinding. We show that under
physiological conditions T7 helicase uses the energy derived from the
hydrolysis of dATP in addition to dTTP for mediating DNA unwinding. 相似文献
6.
Shi Yu Tillmann Falck Anneleen Daemen Leon-Charles Tranchevent Johan AK Suykens Bart De Moor Yves Moreau 《BMC bioinformatics》2010,11(1):309
Background
This paper introduces the notion of optimizing different norms in the dual problem of support vector machines with multiple kernels. The selection of norms yields different extensions of multiple kernel learning (MKL) such as L ∞, L 1, and L 2 MKL. In particular, L 2 MKL is a novel method that leads to non-sparse optimal kernel coefficients, which is different from the sparse kernel coefficients optimized by the existing L ∞ MKL method. In real biomedical applications, L 2 MKL may have more advantages over sparse integration method for thoroughly combining complementary information in heterogeneous data sources. 相似文献7.
The Indian black berry (Syzygium cumini Skeels) has a great nutraceutical and medicinal properties. As in other fruit crops, the
fruit characteristics are important attributes for differentiation were also determined for different accessions of S. cumini. The fruit
weight, length, breadth, length: breadth ratio, pulp weight, pulp content, seed weight and pulp: seed ratio significantly varied in
different accessions. Molecular characterization was carried out using PCR based RAPD technique. Out of 80 RAPD primers, only
18 primers produced stable polymorphisms that were used to examine the phylogenetic relationship. A sum of 207 loci were
generated out of which 201 loci found polymorphic. The average genetic dissimilarity was 97 per cent among jamun accessions.
The phylogenetic relationship was also determined by principal coordinates analysis (PCoA) that explained 46.95 per cent
cumulative variance. The two-dimensional PCoA analysis showed grouping of the different accessions that were plotted into four
sub-plots, representing clustering of accessions. The UPGMA (r = 0.967) and NJ (r = 0.987) dendrogram constructed based on the
dissimilarity matrix revealed a good degree of fit with the cophenetic correlation value. The dendrogram grouped the accessions
into three main clusters according to their eco-geographical regions which given useful insight into their phylogenetic
relationships. 相似文献
8.
不同耕作措施对冬小麦-夏玉米复种连作系统土壤有机碳和水分利用效率的影响 总被引:2,自引:1,他引:1
在连续8年田间定位试验的基础上,分析了关中平原冬小麦 夏玉米复种连作系统2008—2009年连续两个生长季期间不同耕作措施(结合秸秆还田和不还田)对土壤有机碳和水分利用率的影响.结果表明: 相对于传统耕作,保护性耕作有利于土壤有机碳、水分利用效率和作物产量的提高,其中在“深松+秸秆还田”耕作模式下的增幅最高,土壤有机碳含量在0~30 cm土层增幅达到19.5%,水分利用效率和作物产量提高了16.9%和20.5%,而免耕模式则有效提高了0~10 cm土层有机碳含量.在该地区土壤和气候条件下,深松结合秸秆粉碎还田是最理想的耕作模式,最有利于土壤有机碳累积,并提高水分利用效率和作物产量. 相似文献
9.
10.
K Michałek M Laszczyńska AK Ciechanowicz A Herosimczyk I Rotter M Oganowska 《Biotechnic & histochemistry》2014,89(5):342-347
Aquaporin 2 (AQP2) is a small, integral tetrameric plasma membrane protein that is expressed in mammalian kidneys. The specific constitution of this protein and its selective permeability to water means that AQP2 plays an important role in hypertonic urine production. Immunolocalization of AQP2 has been studied in humans, monkeys, sheep, dogs, rabbits, rats, mice and adult cattle. We analyzed the expression of AQP2 in kidneys of 7-month-old Polish-Friesian var. black and white male calves. AQP2 was localized in the principal cells of collecting ducts in medullary rays penetrating the renal cortex and in the collecting ducts of renal medulla. AQP2 was expressed most strongly in the apical plasma membrane, but expression was observed also in the intracellular vesicles and basolateral plasma membrane. Our study provides new information concerning the immunolocalization of AQP2 in calf kidneys. 相似文献