Statistical analysis of splicing sites in mammals

222 donor and 222 acceptor sites were studied. Well-known features of these were confirmed. Several novel observations were made: cCAGGGag signal is present at (-60) region and there is a complementarily between regions (-65) and (-28) of acceptor sites. The calculated strengths of donor and acceptor sites of the same intron are correlated on the 0.5% significance level.     

Resonance energy transfer between the active sites of creatine kinase from rabbit brain

Resonance energy transfer was measured between the active site domains of the brain isozyme of creatine kinase (CK-BB). The reactive thiol near the active sites, one on each subunit of the dimeric protein, was derivatized using 5-[2-[iodoacetyl)amino)ethyl]aminonaphthalene-1-sulfonic acid (AED), 2-[4'-iodoacetamidoanilino]naphthalene-6-sulfonic acid (AANS) and 5-iodoacetamidofluorescein (AF). Suitable donor/acceptor protein conjugated hybrids were prepared by controlled kinetics producing CK-BB-AED/AF and CK-BB-AANS/AF. Transfer efficiencies, measured from the quenching of the donor lifetime and steady-state sensitized acceptor emission, ranged from 0.10 to 0.17. From determination of the donor/acceptor overlap integrals, donor quantum yields and attempts to delimit the orientation factor using steady-state and phase-resolved anisotropy measurements, it was found that a suitable estimate of the range between the active sites was between 45 and 57 A. This range is similar to that reported previously for the muscle isozyme of creatine kinase (Grossman, S.H. (1989) Biochemistry 28, 4894-4902) but is a significantly greater distance than detected for the hybrid, myocardial specific isozyme (Grossman, S.H. (1983) Biochemistry 22, 5369-5375).     

Resonance energy transfer between the active sites of rabbit muscle creatine kinase: analysis by steady-state and time-resolved fluorescence

Resonance energy transfer between the reactive thiols of rabbit muscle creatine kinase was evaluated. The reactive thiols are located at the active site, one occurring on each subunit of the dimeric protein that is known to be a constituent of the M-line structure of the myofibril. Transfer efficiency was evaluated from energy donor quenching of fluorescence by steady-state and phase-modulation lifetime measurements and determination of sensitized emission of the acceptor. Several sulfhydryl-specific donor fluorophores were used including 5-[[[(iodoacetyl)amino]ethyl]amino]naphthalene-1-sulfonic acid, 7-(dimethylamino)-3-(4-maleimidylphenyl)-4-methylcoumarin, and 2-[4-(iodoacetamido)anilino]naphthalene-6-sulfonic acid (IAANS). Energy transfer acceptors included 5-(iodoacetamido)fluorescein and the nonfluorescent dye [4-[[4-(dimethylamino)phenyl]azo]phenyl]iodoacetamide. In order to prepare the necessary homodimer labeled with both donor and acceptor, advantage was taken of the biphasic reaction between creatine kinase and IAANS. In some instances, donor/acceptor hybrids were prepared by denaturation/renaturation procedures, and possible deviations from expected hybridization stoichiometry were considered. Disproportionation of singly labeled dimers (to unlabeled and doubly labeled dimers) was not observed when the brain isozyme of creatine kinase was used to trap dissociated dye-conjugated or unlabeled muscle-type subunits of creatine kinase. From studies of five different donor/acceptor combinations, the efficiency of energy transfer was found to occur over a range of 5-14%, indicating that the reactive thiols are well separated. Overlap integrals and quantum yields were evaluated, and estimates of the range of orientation factor were obtained to determine a range for the distance between the active sites of creatine kinase. When the ranges are overlapped, a limited distance of 48.6-60.4 A is obtained.(ABSTRACT TRUNCATED AT 250 WORDS)     

Charge Transport in Pure and Mixed Phases in Organic Solar Cells

In organic solar cells continuous donor and acceptor networks are considered necessary for charge extraction, whereas discontinuous neat phases and molecularly mixed donor–acceptor phases are generally regarded as detrimental. However, the impact of different levels of domain continuity, purity, and donor–acceptor mixing on charge transport remains only semiquantitatively described. Here, cosublimed donor–acceptor mixtures, where the distance between the donor sites is varied in a controlled manner from homogeneously diluted donor sites to a continuous donor network are studied. Using transient measurements, spanning from sub‐picoseconds to microseconds photogenerated charge motion is measured in complete photovoltaic devices, to show that even highly diluted donor sites (5.7%–10% molar) in a buckminsterfullerene matrix enable hole transport. Hopping between isolated donor sites can occur by long‐range hole tunneling through several buckminsterfullerene molecules, over distances of up to ≈4 nm. Hence, these results question the relevance of “pristine” phases and whether a continuous interpenetrating donor–acceptor network is the ideal morphology for charge transport.     

人类基因组中可变和组成性剪接位点的预测

根据剪接位点的核酸序列保守特征,以及邻近位点的碱基组成和关联特性,结合一对可变剪接位点之间的距离参数和受体端剪接位点前30位碱基的GC和TC含量,利用结合多样性指标的二次判别方法（IDQD）,预测了人类基因组中可变和组成性内含子的供体端和受体端的剪接位点,对可变的供体端和受体端剪接位点,阈值ξ选择－2时,总的预测精度分别为87．9％和89．9％,对组成性的供体端和受体端剪接位点,阈值ξ选择－1,总的预测精度分别为92．8％和94.3％．     

人类基因组盒式外显子和内含子保留的可变剪接位点预测

信使RNA的可变剪接是真核生物有别于原核生物的基本特征之一,信使RNA前体的可变剪接极大地丰富了高等真核生物蛋白质的多样性,并与生物体的组织特异性密切相关。文章对人类盒式外显子和内含子保留的一些基本特征进行了统计;根据剪接位点附近的单碱基、碱基二联体和三联体的保守性等特征,利用基于多样性指标的二次判别法,对盒式外显子和内含子保留的供体端和受体端可变剪接位点进行了预测。交叉检验结果表明,盒式外显子供体端和受体端的识别精度分别达到93％、84％以上的水平;内含子保留供体端和受体端的识别精度分别达到89％、81％以上的水平。     

Structural mapping of nucleotide binding sites on chloroplast coupling factor

Fluorescence resonance energy transfer was used to measure the distances between three nucleotide binding sites on solubilized chloroplast coupling factor from spinach and between each nucleotide site and two tyrosine residues which are important for catalytic activity. The nucleotide energy donor was 1,N6-ethenoadenosine di- or triphosphate, and the nucleotide energy acceptor was 2'(3')-(trinitrophenyl)adenosine diphosphate. The tyrosine residues were specifically labeled with 7-chloro-4-nitro-2,1,3-benzoxadiazole, which served as an energy acceptor. The results obtained indicate the three nucleotide binding sites form a triangle with sides of 44, 48, and 36 A. (The assumption has been made in calculating these distances that the energy donor and acceptor rotate rapidly relative to the fluorescence lifetime.) Two of the nucleotide sites are approximately equidistant from each of the two tyrosines: one of the nucleotide sites is about 37 A and the other about 41 A from each tyrosine. The third nucleotide site is about 41 A from one of the tyrosines and greater than or equal to 41 A from the other tyrosine.     

A clean data set of EST-confirmed splice sites from Homo sapiens and standards for clean-up procedures.

A clean data set of verified splice sites from Homo sapiens are reported as well as the standards used for the clean-up procedure. The sites were validated by: (i) standard cleaning procedures such as requiring consistency in the annotation of the gene structural elements, completeness of the coding regions and elimination of redundant sequences; (ii) clustering by decision trees coupled with analysis of ClustalW alignments of the translated protein sequence with homologous proteins from SWISS-PROT; (iii) matching against human EST sequences. The sites are categorised as: (i) donor sites, a set of 619 EST-confirmed donor sites, for which 138 are either the sites or the regions around the sites involved in alternative splice events; (ii) acceptor sites, a set of 623 EST-confirmed acceptor sites, for which 144 are either the sites or the regions around the sites are involved in alternative splice events; (iii) genuine splice sites, a set of 392 splice sites wherein both the donor and acceptor sites had EST confirmation and were not involved in any alternative splicing; (iv) alternative splice sites, a set of 209 splice sites wherein both the donor and acceptor sites had EST confirmation and the sites or the regions around them were involved in alternative splicing. A set of nucleotide regions that can be used to generate a control set of false splice sites that have a high confidence of being non-functional are also reported.     

用支持向量机预测人类基因5’／3’选择性剪切位点

选择性剪切是调解基因表达的重要机制.识别选择性剪切位点是后基因组时代的一个重要工作.本文从最新的EBI人类基因选择性剪切数据库中,选取5＇/3＇选择性剪切位点作为正集,选取在剪切位点附近的假剪切位点作为负集,并把所有的选择性剪切位点和假剪切位点随机分成训练集和测试集.本文选用的预测选择性剪切位点的方法是基于位置权重矩阵和离散增量的支持向量机方法.此方法仅基于训练集,以不同位点的单碱基概率和序列片断的三联体频数作为信息参数,利用位置权重矩阵和离散增量算法结合支持向量机,得到了选择性供体位点和受体位点的分类器,并用此分类器对测试集中的选择性供体位点和受体位点进行预测.对独立测试集中的选择性供体位点和选择性受体位点的预测成功率分别为88.74%和90.86%,特异性分别为85.62%和81.19%.本文预测选择性剪切位点的方法成功率高于其它选择性剪切位点预测方法预测成功率,此预测方法进一步提高了对选择性剪切位点的理论预测能力.     

Structural mapping of chloroplast coupling factor

Fluorescence resonance energy transfer measurements have been used to investigate the spatial relationships between the nucleotide binding sites and the gamma-subunit of the H+-ATPase from chloroplasts and the orientation of these sites with respect to the membrane surface. Fluorescent maleimides reacted covalently at specific sulfhydryl sites on the gamma-subunit served as energy donors. One sulfhydryl site can be labeled only under energized conditions on the thylakoid membrane surface (light site). The two gamma-sulfhydryls exposed after catalytic activation served as a second donor site (disulfide site). In one set of experiments, the nucleotide analogue 2'(3')-(trinitrophenyl)adenosine triphosphate, selectively bound at each of the three nucleotide binding sites of the solubilized coupling factor, was used as an energy acceptor; in another, octadecylrhodamine with its acyl chain inserted in the vesicle bilayer and the rhodamine fluorophore exposed along the membrane surface was the energy acceptor. The distance between the sulfhydryl and disulfide sites was also obtained by sequentially labeling the sites with coumarin (donor) and fluorescein (acceptor) maleimide derivatives, respectively. The results indicate that all three nucleotide sites are approximately equal to 50 A from the light-labeled gamma-sulfhydryl. Two of the nucleotide sites are very far from the gamma-disulfide (greater than 74 A), while the third site, which binds nucleotides reversibly under all conditions, is 62 A from this sulfhydryl. The light-labeled sulfhydryl and disulfide sites are about 42-47 A apart. Finally, the distance of closest approach between the membrane surface of the reconstituted system and the gamma-disulfide is 31 A.(ABSTRACT TRUNCATED AT 250 WORDS)     

Prediction of human mRNA donor and acceptor sites from the DNA sequence

Artificial neural networks have been applied to the prediction of splice site location in human pre-mRNA. A joint prediction scheme where prediction of transition regions between introns and exons regulates a cutoff level for splice site assignment was able to predict splice site locations with confidence levels far better than previously reported in the literature. The problem of predicting donor and acceptor sites in human genes is hampered by the presence of numerous amounts of false positives: here, the distribution of these false splice sites is examined and linked to a possible scenario for the splicing mechanism in vivo. When the presented method detects 95% of the true donor and acceptor sites, it makes less than 0.1% false donor site assignments and less than 0.4% false acceptor site assignments. For the large data set used in this study, this means that on average there are one and a half false donor sites per true donor site and six false acceptor sites per true acceptor site. With the joint assignment method, more than a fifth of the true donor sites and around one fourth of the true acceptor sites could be detected without accompaniment of any false positive predictions. Highly confident splice sites could not be isolated with a widely used weight matrix method or by separate splice site networks. A complementary relation between the confidence levels of the coding/non-coding and the separate splice site networks was observed, with many weak splice sites having sharp transitions in the coding/non-coding signal and many stronger splice sites having more ill-defined transitions between coding and non-coding.     

Functional characterization of two novel splicing mutations of glucokinase gene associated with maturity-onset diabetes of the young type 2 (MODY2)

Two novel mutations in the glucokinase gene (GCK) have been identified in patients with maturity-onset diabetes of the young type-2 (MODY2), i.e., a C-for-G substitution at position ?1 of the acceptor splice site of intron 7 (c. 864-1G>C) and a synonymous c.666C>G substitution (GTC>GTG, p.V222V) at exon 6. An analysis of the splicing products obtained upon the transfection of human embryonic HEK293 cells with GCK minigene constructs carrying these mutations showed that both substitutions impaired normal splicing. As a result of c.864-1G>C, the usage of the normal acceptor site was blocked, which activated cryptic acceptor splice sites within intron 7 and generated several aberrant RNAs containing fragments of intron 7. The synonymous substitution c.666C>G created a novel donor splice site in exon 6, which results in the formation of an abnormal GCK mRNA with a 16-nucleotide deletion in exon 6. In vitro experiments on minigene splicing confirmed the inactivating effect of these mutations on glucokinase gene expression.     

Competitive binding of acetate and chloride in photosystem II.

The binding of chloride and acetate to photosystem II (PSII) was examined to elucidate the mechanism of acetate inhibition. The mode of inhibition was studied, and individual binding sites were assigned by steady-state O2 evolution measurements in correlation with electron paramagnetic resonance (EPR) results. Two binding sites were found for acetate, one chloride-sensitive on the electron donor side and one chloride-insensitive on the electron acceptor side. The respective binding constants were as follows: KCl = 0.5 +/- 0.2 mM (chloride binding to the donor side), KI = 16 +/- 5 mM (acetate binding to the donor side), and KI' = 130 +/- 40 mM (acetate binding to the acceptor side). When acetate was bound to the acceptor side of PSII, 200 K illumination induced a narrowed form of the QA-FeII EPR signal, the yield of which was independent of the chloride concentration. When acetate was bound to the donor side, room-temperature illumination produced the S2YZ* state. EPR measurements showed that both the yield and formation rate of this state increased with acetate concentration. Increasing chloride concentrations slowed the rate of formation of the S2YZ* state, but did not affect the steady-state yield of the S2YZ* state. These findings indicate that the light-induced reactions in acetate-inhibited PSII are modulated by both donor side and acceptor side binding of acetate, while the steady-state yield of the S2YZ* state at the high PSII concentrations used for EPR measurements depends primarily on acceptor side turnover. Our data further support a close proximity of chloride to YZ*, indicating a possible role for chloride in the electron-transfer mechanism at the O2-evolving complex.     

Crisscross enzymatic reaction between the two molecules in the active dimeric P69 form of the 2'-5' oligodenylate synthetase

2'-5' oligoadenylate (2-5 (A)) synthetases are major components of the antiviral pathways induced by interferons. In the presence of double-stranded RNA, they polymerize ATP to form 2-5 (A) oligomers that, in turn, activate the latent ribonuclease RNase L, causing mRNA degradation. These enzymes, unlike other nucleotidyl transferases, catalyze 2'-5', not 3'-5', phosphodiester bond formation between substrates bound to the acceptor and donor sites. Moreover, unlike other members of this extended family, the P69 isozyme of 2-5 (A) synthetase functions as a homodimer. Here, we report that the need for P69 dimerization is because of a crisscross enzyme reaction joining two substrate molecules bound to two opposite subunits. Consequently, although homodimers of mutants in the previously identified acceptor site, the donor site, or the catalytic site were inactive, selective heterodimers of the mutants were active because of subunit complementation. The catalytic site had to be present in the same subunit that contained the acceptor site, whereas the donor site had to be provided by the other subunit. These results allowed us to design a mutant protein that acted as a dominant-negative inhibitor of wt P69 but not of another isozyme of 2-5 (A) synthetase.     

Resonance energy transfer measurements between substrate binding sites within the large (Klenow) fragment of Escherichia coli DNA polymerase I

Resonance energy transfer was used to determine separation distances between fluorescent derivatives of substrates for Klenow fragment and a unique sulfhydryl, cysteine 907, on the enzyme. Fluorescent derivatives of duplex DNA, deoxynucleotide triphosphates (dNTP), and deoxynucleotide monophosphates (dNMP), modified with aminonaphthalenesulfonates (ANS), served as energy-transfer donors to the fluorophore used to modify cysteine 907, 4-[N-[(iodoacetoxy)ethyl]-N-methylamino]-7-nitrobenz-2-oxa-1,3-diazole (IANBD). The labeling of cysteine 907 with NBD caused no decrease in the enzyme's polymerase activity, suggesting that the probe did not significantly alter the conformation of the enzyme. The efficiency of singlet-singlet resonance energy transfer was determined from the quantum yield of the donor in the presence and absence of acceptor. By F?rster's theory, the measured distances between cysteine 907 and binding sites for duplex DNA, dNTP, and dNMP were 25-39, 19-28, and 17-26 A, respectively. As the fluorophores, attached to the substrates via a tether arm, are separated from the substrates by approximately 12 A, the distances measured between binding sites are subject to this uncertainty. To measure the separation between binding sites for duplex DNA and dNMP, and to reduce the uncertainty introduced by the tether arm, two experiments were carried out. In the first, duplex DNA was labeled with the acceptor fluorophore NBD and used with the donor ANS-modified dNMP to yield a measured distance separating these two sites of 19-28 A.(ABSTRACT TRUNCATED AT 250 WORDS)     

Interaction of substrates and substrate-like inhibitors with the peptidyltransferase center from Escherichia coli ribosomes

The binding isotherms of CACCA(3'NHPhe----Ac) and CACCA(3'NHPhe) to E. coli ribosomes and 50S subunits were measured. A theoretical model of adsorption for the case of cooperative interaction between two ligands adsorbed on a ribosome was designated. The analysis of the experimental binding isoterms leads to the following conclusions. A ribosome (or subunit) binds one CACCA (3'NHPhe----Ac) molecule to donor site of the peptidyl transferase center, but two CACCA (3'NHPhe) molecules to both donor and acceptor sites. The binding of CACCA (3'NHPhe) to ribosomes (or subunits) is a cooperative process, characterized by the cooperativity coefficient tau = 40 +/- 5 or more. When model substrates CACCA-Phe, CACCA-Leu and CACCA-Val were taken instead of CACCA (3'NHPhe) in the incubation mixture with ribosomes, dipeptides were obtained even in the case, when ratio [model substrate]: [ribosome] (in moles) was much lower than 1. Puromycin binding to acceptor site with constant (1-2) X 10(4) M-1 also stimulates CACCA(3'NHPhe----Ac) adsorption to the donor site of ribosomes with cooperativity coefficient being equal to 1.5-2.5. It is also shown that cytidine 5'-phosphate binding to the donor site increases kappa cat of the reaction of minimal donors with CACCA-Phe by 1.5 orders of magnitude but has no effect on Km of this reaction. These facts point out that cytidine 5'-phosphate being adsorbed on the corresponding area of the donor site leads to the conversion of low-productive complex [ribosome + minimal donor substrate + acceptor substrate] into high-productive complex [ribosome + minimal donor substrate + acceptor substrate + cytidine 5'-phosphate].     

Characterization of multiple mRNA species of simian immunodeficiency virus from macaques in a CD4+ lymphoid cell line.

Cytoplasmic poly(A)+ RNA was isolated from CEMX721.174 cells 5 to 10 days after infection with molecularly cloned simian immunodeficiency virus SIVmac239. Expression of SIV RNA was analyzed by Northern (RNA) blot hybridization and by sequencing of cDNA clones. As expected, a splice donor site was demonstrated in the untranslated leader sequence outside the left long terminal repeat. The region between pol and env was found to contain at least two splice donor and six splice acceptor sites. Splice acceptor and donor sites in the intergenic region were suitably positioned for expression of vpx, vpr, tat, and rev. Splice acceptor sites at nucleotides 8802 and 8805 were demonstrated in singly and doubly spliced RNAs with the potential of expressing nef and the second exons of tat and rev. Our results demonstrate a complex pattern of alternative splicing of SIV mRNAs. The results are very similar to what has been observed in human immunodeficiency virus type 1-infected cells, suggesting that both human and simian immunodeficiency viruses are subject to multiple levels of regulation.     

Donor fluorescence decay analysis for energy transfer in double-helical DNA with various acceptor concentrations

We studied fluorescence resonance energy transfer between donors and acceptors bound to double-helical DNA. The donor Hoechst 33258 binds to the minor groove of DNA and the acceptor propidium iodide (PI) is an intercalator. The time-resolved donor decays were measured in the frequency domain. The donor decays were consistent with a random 1-dimensional distribution of acceptors. The decays were analyzed in terms of three 1-dimensional models: a random continuous acceptor distribution; acceptors placed on discrete lattice sites; and a cylindrical model with the acceptor in the center, and the donors on a cylinder surface. The data were well described by all three models. Interpretation in terms of continuous distribution of acceptors revealed a minimum donor to acceptor distance of 13 A, which is 3 bp from the center of Hoechst 33252. These results suggest that PI is excluded from the 4 bp covered by Hoechst 33252 when it is bound to the minor groove of DNA.     

Features of spliceosome evolution and function inferred from an analysis of the information at human splice sites.

An information analysis of the 5' (donor) and 3' (acceptor) sequences spanning the ends of nearly 1800 human introns has provided evidence for structural features of splice sites that bear upon spliceosome evolution and function: (1) 82% of the sequence information (i.e. sequence conservation) at donor junctions and 97% of the sequence information at acceptor junctions is confined to the introns, allowing codon choices throughout exons to be largely unrestricted. The distribution of information at intron-exon junctions is also described in detail and compared with footprints. (2) Acceptor sites are found to possess enough information to be located in the transcribed portion of the human genome, whereas donor sites possess about one bit less than the information needed to locate them independently. This difference suggests that acceptor sites are located first in humans and, having been located, reduce by a factor of two the number of alternative sites available as donors. Direct experimental evidence exists to support this conclusion. (3) The sequences of donor and acceptor splice sites exhibit a striking similarity. This suggests that the two junctions derive from a common ancestor and that during evolution the information of both sites shifted onto the intron. If so, the protein and RNA components that are found in contemporary spliceosomes, and which are responsible for recognizing donor and acceptor sequences, should also be related. This conclusion is supported by the common structures found in different parts of the spliceosome.