WO1997036925A9 - Proteine de fixation de la boite tata du candida albicans, ac ide nucleique la codant et epreuves de selection afferentes - Google Patents
Proteine de fixation de la boite tata du candida albicans, ac ide nucleique la codant et epreuves de selection afferentesInfo
- Publication number
- WO1997036925A9 WO1997036925A9 PCT/US1997/006170 US9706170W WO9736925A9 WO 1997036925 A9 WO1997036925 A9 WO 1997036925A9 US 9706170 W US9706170 W US 9706170W WO 9736925 A9 WO9736925 A9 WO 9736925A9
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- candida albicans
- tbp
- inhibitor
- inhibition
- complex
- Prior art date
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Definitions
- the invention encompasses a novel transcription factor from Candida albicans.
- TBP a nucleic acid sequence encoding TBP
- methods of screening for inhibitors of Candida albicans growth by targeting TBP are known in the art.
- the invention relates in general to transcription factors and to methods for screening for antifungal agents.
- the invention was made in part using government funds, NIH grant no.
- Candida albicans (C. albicans) is one of the most pervasive fungal pathogens in humans. It has the capacity to opportunistically infect a diverse spectrum of compromised hosts, and to invade many diverse tissues in the human body. It can in many instances evade antibiotic treatment and the immune system. Although Candida albicans is a member of the normal flora of the mucous membranes in the respiratory, gastrointestinal, and female genital tracts, in such locations, it may gain dominance and be associated with pathologic conditions. Sometimes it produces progressive systemic disease in debilitated or immunosuppressed patients, particularly if cell-mediated immunity is impaired.
- Sepsis may occur in patients with compromised cellular immunity, e.g., those undergoing cancer chemotherapy or those with lymphoma, AIDS, or other conditions.
- Candida may produce bloodstream invasion, thrombophlebitis, endocarditis, or infection of the eyes and virtually any organ or tissue when introduced intravenously, e.g. , via tubing, needles, narcotics abuse, etc.
- Candida albicans has been shown to be diploid with balanced lethals, and therefore probably does not go through a sexual phase or meiotic cycle. This yeast appears to be able to spontaneously and reversibly switch at high frequency between at least seven general phenotypes. Switching has been shown to occur not only in standard laboratory strains, but also in strains isolated from the mouths of healthy individuals.
- Ny statin, ketoconazole, and amphotericin B are drugs which have been used to treat oral and systemic Candida infections. However, orally administered nystatin is limited to treatment within the gut and is not applicable to systemic treatment. Some systemic infections are susceptible to treatment with ketoconazole or amphotericin B, but these drugs may not be effective in such treatment unless combined with additional drugs. Amphotericin B has a relatively narrow therapeutic index and numerous undesireable side effects and toxicities occur even at therapeutic concentrations.
- ketoconazole and other azole antifungals exhibit significantly lower toxicity, their mechanism of action, inactivation of cytochrome P 450 prosthetic group in certain enzymes , some of which are found in humans, precludes use in patients that are simultaneously receiving other drugs that are metabolized by the body's cytochrome P 450 enzymes. In addition, resistance to these compounds is emerging and may pose a serious problem in the future.
- One object of the invention is to provide screening assays for identifying potential inhibitors of Candida albicans growth.
- Another object of the invention is to provide screening assays and to identify potential inhibitors of Candida albicans growth that are based on inhibition of transcription in this organism.
- RNA polymerase II and accessory transcription factors, some of which are general and act at most, if not al promoters, and others of which confer specificity and control.
- Five general factors, * . b, d, e, and g, have been purified to homogeneity from the yeast S. cerevisiae. and have been identified as counterparts of human or rat factors, TFIIE, TFIIH, TFIID, TFIIB and TFIIF, respectively. These factors assemble at a promoter in a complex with RNA polymerase II to initiate transcription.
- Binding studies have shown that the order of assembly of the initiation complex on promoter DNA begins with factor d (TFIID), is followed by factor e (TFIIB), and then by polymerase and the remaining factors.
- Factors b (TFIIH), e (TFIIB) and g (TFIIF) bind directly to polymerase II, and as many as four of the five factors may assemble with the polymerase in a holoenzyme before promoter binding.
- the functional significance of interactions revealed by binding studies is not clear in that only a few percent of initiation complexes may give rise to transcripts.
- RNA polymerase II Many aspects of transcription by RNA polymerase II are conserved between yeast and higher eukaryotes. For example, there is extensive amino acid sequence similarity among the largest subunits of the yeast, Drosphila and mammalian polymerases. Other components of the transcription apparatus, such as TATA-binding and enhancer binding factors, are in some instances interchangeable between yeast and mammalian in vitro binding or transcription systems. There are, nonetheless, significant differences between the two systems. TATA elements are located from 40 to 120 or more base pairs upstream of the inititation site of an S. cerevisiae promoter, and where these elements occur, they are required for gene expression. The fact that C. albicans genes function in S.
- RNA polymerase II TFIIF
- TFIID TFIID
- TATA-binding protein is the central initiation factor for transcription by all three nuclear RNA polymerases, and is highly conserved throughout the eukaryotic kingdom. The 180 amino acid carboxy-terminal core domain is sufficient for TATA element binding, for all essential functions in S. cerevisiae. and is 80% identical between S. cerevisiae and humans.
- yeast and human TBPs can functionally replace one another in terms of basal RNA polymerase II transcription, and they display nearly identical DNA sequence requirements for TATA elements.
- TBP exhibits species-specific behavior in vivo.
- human and yeast TBP's are not species interchangeable in supporting cell growth (Gill and Tjian, Cell 65:333-340, (1991); Cormack et al., Cell 65:341-348 (1991)).
- Human and S. cerevisiae TFIIB's have 50-60% amino acid sequence identity, and also are not species interchangeable in supporting cell growth. Operative substitution of the same transcription factor in transcription systems of different yeast species is not predictable. This is true despite a high degree of amino acid sequence identity among some transcription factors from different yeast species. For example, the ability of a given transcription factor to support efficient and accurate transcription in a heterologous yeast species is not predictable. Li et al. (1994, Science 263:805) tested the interchangeability of S.
- S. cerevisiae and S. pombe transcription factors in vitro, and report that many S. cerevisiae components cannot substitute individually for S. pombe RNA transcription factors a, e, or polymerase II, but some combinations of these components were effective.
- active transcription could not be reconstituted when S. cerevisiae-de ⁇ vcd TFIIB was the sole substitution into a TFIIB-depleted set of factors from S. pombe.
- a TFIIB-RNA polymerase II combination from S. cerevisiae was able to substitute, indicating that the functional interaction of these two components is not only important, but also that the activity may be dependent on species-specific determinants that cannot be complemented by either component derived from a different organism.
- the yeast Candida albicans differs from most yeast strains in that it does not use the same genetic code that most organisms, whether mammalian or yeast, utilize.
- Santos et al. (1995, Nucleic Acids Research, 23: 1481) report that the codon CUG, which in the universal code is read as a leucine, is decoded as a serine in Candida. Therefore, any CUG codon that is decoded in Candida albicans as a serine, would be decoded as a leucine in the transformed S. cerevisiae. Any gene containing a CUG codon would therefore be translated as different amino acid sequences in Candida albicans and £. cerevisiae.
- Such mistranslation may produce an inactive protein, since the amino acids serine and leucine have markedly different chemical properties and serine is known to be an essential residue in the active site of some enzymes.
- Replacement of leucine by serine at CUG encoded residues is a serious problem in the use of many reporter systems (e.g. / 3-galactosidase, Chloramphenicol acetyltransf erase, Flux) in Candida albicans.
- reporter systems e.g. / 3-galactosidase, Chloramphenicol acetyltransf erase, Flux
- Another object of the invention is to provide an assay for screening for selective inhibition of Candida albicans growth and/or viability.
- Yet another object of the invention is to provide a molecular target for inhibition of Candida albicans transcription or transcription initiation.
- the invention encompasses a recombinant nucleic acid comprising a nucleic acid sequence encoding Candida albicans TBP.
- the invention also encompasses a vector comprising a nucleic acid sequence encoding Candida albicans TBP, and a transformed host cell containing a nucleic acid sequence encoding Candida albicans TBP.
- the invention also encompasses a method for producing recombinant Candida albicans TBP, comprising culturing a host cell transformed with a nucleic acid encoding Candida albicans TBP under conditions sufficient to permit expression of the nucleic acid encoding Candida albicans TBP, and isolating Candida albicans TBP.
- the invention also encompasses a screening method for identifying an inhibitor of Candida albicans growth, comprising detecting inhibition of mRNA transcription in an in vitro transcription assay comprising a DNA template, RNA polymerase II, recombinant Candida albicans TBP, and a candidate inhibitor, wherein production of an mRNA transcript complementary to the DNA template occurs in the absence if the candidate inhibitor.
- the invention also encompasses a screening method for identifying an inhibitor of Candida albicans growth, comprising detecting in the presence of a candidate inhibitor inhibition of formation of a complex comprising a DNA template and recombinant Candida albicans TBP, wherein in the absence of the candidate inhibitor, formation of the complex occurs.
- the method also may be performed in the presence of additional factors, such as TFIIB, RNA polymerase II and TFIIF.
- the invention also encompasses a screening method for identifying an inhibitor of Candida albicans growth, comprising detecting in the presence of a candidate inhibitor, inhibition of formation of a complex comprising Candida albicans TFIIB and Candida albicans TBP, wherein in the absence of the candidate inhibitor formation of the complex occurs.
- the complex will include a DNA template.
- the invention also encompasses a screening method for identifying an inhibitor of Candida albicans growth, comprising detecting in the presence of a candidate inhibitor inhibition of formation of a complex comprising RNA polymerase II, Candida albicans TBP, and Candida albicans TFIIB, wherein in the absence of the candidate inhibitor formation of the complex occurs.
- the complex will include a DNA template and the RNA polymerase II from C. albicans.
- detection may be performed in the presence of a plurality of candidate inhibitors.
- screening methods of the invention which involve screening of a plurality of candidate inhibitors, the plurality of inhibitors may be screened together in a single assay or individually using multiple simultaneous individual detecting steps.
- the invention also encompasses a method of preventing Candida albicans growth in culture, comprising contacting the culture with an inhibitor that selectively inhibits the biological activity of Candida albicans TBP.
- the invention also encompasses a method of preventing Candida albicans growth in a mammal, comprising administering to a mammal a therapeutically effective amount of an inhibitor that inhibits the biological activity of Candida albicans TBP.
- inhibitor refers to a reduction in the parameter being measured, whether it be Candida albicans growth or viability, Candida albicans TBP- mediated transcription, or formation of a Candida albicans TBP transcription complex. The amount of such reduction is measured relative to a standard (control). Because of the multiple interactions of Candida albicans TBP in transcription initiation, the target product for detection varies with respect to the particular screening assay employed. Three preferred detection products presented in this disclosure are; a) newly transcribed mRNA, b) a DNA-TBP complex, and c) a TBP-TFIIB-RNA polymerase II complex. "Reduction” is defined herein as a decrease of at least 25% relative to a control, preferably of at least 50%, and most preferably of at least 75%.
- growth refers to the normal growth pattern of Candida albicans , i.e. , to a cell doubling time of 60 - 90 minutes.
- “Viability” refers to the ability of Candida albicans to survive in culture for 48 hours.
- Biological activity refers to the ability of TBP to form a transcription complex with a DNA template or other proteins of the transcription complex, or to interact with other transcription components so as to permit initiation of transcription.
- DNA template refers to double stranded DNA and, where indicated by the particular binding assay to single stranded DNA, at least 10 nucleotides in length, that may be negatively supercoiled if double-stranded, possesses a promoter region, and contains a yeast TATA consensus region.
- DNA templates useful herein preferably will contain a TATA sequence that is located from 40 to 120 or more base pairs upstream of the inititation site (distance measured from the first T of the TATA element to the 5 '-most initiation site).
- mRNA transcript refers to a full-length transcript as well as to truncated transcripts, oligonucleotide transcripts and dinucleotide RNAs.
- Formation of a complex refers to the binding of TBP to other transcription factors (i.e., protein-protein binding) as well as to binding of TBP to a DNA template; such binding will, of course, be a non-covalent association.
- Fig. 1 presents the nucleotide and amino acid sequences of the Candida albicans transcription factor TBP.
- Fig. 2 presents nucleotide and amino acid sequence of the Candida albicans transcription factor TFIIB.
- the invention is based on the discovery of a novel protein, Candida albicans TBP, and on the isolation of recombinant DNA encoding Candida albicans transcription factor TBP. Because TBP is essential for viability of the cell, a compound that blocks the biological activity of the protein is expected to have fungicidal properties. Therefore, the invention is also based on the development of assays for screening from inhibitors of TBP.
- the approach used to clone the Candida albicans homolog of TBP involved genetic complementation of mutant S. cerevisiae strains.
- a library of Candida albicans genomic sequences was introduced into a strain of S. cerevisiae that contained a mutated TBP gene (sptlS).
- This mutant strain was capable of growth at 30° C, but was non-viable at 37° C, due to a temperature sensitive mutation in the TBP gene.
- the cells were grown at 37° C, and the colonies which grew at this non-permissive temperature were further studied as potentially carrying a Candida albicans homolog of the defective gene.
- This approach will only work if a Candida albicans homolog is able to substitute functionally in vivo for the defective gene.
- the library plasmid DNA was recovered from the cell and retested to confirm that the C. albicans sequences on the plasmid were substituting for the S. ce ⁇ visiae gene.
- Subclones of the C. albicans sequences were constructed by standard cloning methods, and the minimal Candida DNA sequences that substituted were sequenced using standard methods.
- the nucleotide sequence encoding Candida albicans TBP and the predicted amino acid sequence of the encoded protein are presented in Fig. 1 (SEQ ID NOS: 1 and 2).
- the nucleotide sequence encoding Candida albicans TFIIB and the predicted amino acid sequence of the encoded protein are presented in Fig. 2 (SEQ ID NOS: 3 and 4).
- the recombinant Candida albicans TBP gene and recombinant protein encoded by this gene may be utilized in screening assays for inhibitors of Candida albicans growth and viability.
- the screening assays of this invention detect inhibition of the Candida albicans
- TBP-mediated component of transcription initiation either by measuring inhibition of trancription, transcription initation, or initiation complex formation, or by assaying formation of a protein/DNA or a protein/protein complex.
- Transcription Assay Components.
- An in vitro transcription assay consisting of the minimal components necessary to synthesize an mRNA transcript from a DNA template can be used to screen for inhibition of mRNA production.
- the elements of such an assay consist of; a) a DNA template, b) RNA polymerase II, c) recombinant Candida albicans TBP, and d) a TFIIB which is preferably Candida albicans TFIIB.
- additional components of the transcription complex may be included, as desired; e.g., TFIIE, TFIIF, TFIIH, etc.
- Parvin and Sharp (Cell 73, 533-540, 1993) have reconstituted gene transcription in vitro with a minimal reaction containing a DNA template, RNA polymerase II, TFIIB, and TBP.
- the DNA template (a) is supercoiled, and (b) possesses a promoter region containing a TATA consensus region.
- Lue et al. (Science 246, 661-664, 1989) have determined that transcription may be detected most efficiently with a DNA template devoid of guanosine residues (a G-minus or G-less cassette ).
- Promoter dependence is demonstrated by the loss of signal when a plasmid lacking promoter sequences is utilized as a template. Correct initiation is demonstrated by the production of a band with a mobility consistent with the size of the expected product on denaturing polyacrylamide electrophoresis gels.
- RNA polymerase II As stated above, Candida albicans TBP forms a transcription initiation complex with RNA polymerase II. Therefore, it is desired that an in vitro transcription assay according to the invention contain RNA polymerase II. Although it is possible to perform an inhibitor screening assay using RNA polymerase II from a yeast strain other than Candida albicans. e.g., S. cerevisiae. it is most desirable to use a homologous assay in which the transcription complex components are from Candida albicans . A method for S. cerevisiae RNA polll purification is described in Edwards et al. (Proc. Natl. Acad. Sci. USA 87: 2122-2126 (1990)). Alternatively, highly purified RNA polymerase II from Candida albicans was provided as follows.
- RNA polymerase II activity was measured in reactions containing 50 mM Tris-Cl, pH 7.9 (4° C), 50 mM (NH ⁇ SO 4 , 2.5 mM MnCl 2 , 0.1 mM EDTA, 5 mM DTT, 100 ⁇ g/ml BSA, 0.6 mM ATP, CTP and GTP, 25 ⁇ M UTP (2.5 ⁇ Ci) [ ⁇ - 32 P] UTP and 100 ⁇ g/ml heat-denatured calf thymus DNA in a final volume of 50 ⁇ l. Reactions were incubated for 60 min. at 30° C and terminated by addition of 50 ⁇ l 15% (w/v) trichloroacetic acid.
- Acid-insoluble radioactivity was collected by filtration through glass fiber filters and quantified by liquid scintillation spectrophotometry.
- One unit of RNA polymerase activity catalyzes the incorporation of 1 pmol of UTP into acid-insoluble material in 60 min. under the conditions described above.
- Candida albicans was obtained from the American Type Culture Collection (ATCC 10231) and cultured in YPD medium (Current Protocols in Molecular Biology, Vol. 2, 13, Suppl. 19 (1989)) at 30° C with vigorous agitation and aeration. All procedures were carried out at 4° C using 18 liter cultures. Cells were harvested by centrifugation (5000 rpm, 10 min., Sorvall H6000 rotor), washed once with ⁇ 11 ice-cold deionized water and repelleted as above.
- ATCC 10231 American Type Culture Collection
- YPD medium Current Protocols in Molecular Biology, Vol. 2, 13, Suppl. 19 (1989)
- the cell pellet (200-300 g wet weight) was thoroughly resuspended in a volume of Buffer A (50 mM Tris-HCl, pH 7.9, 4° C, 10% glycerol, 1 mM EDTA, 5 mM MgCl 2 , and protease inhibitor) containing 300 mM (NH 4 ) 2 SO 4 equivalent to the packed volume of cells (determined by weight assuming a density of 1 g/ml cells). Resuspended cells were either processed immediately as described below or frozen by pipetting into liquid N 2 and stored at -80 C. Frozen cells were thawed on ice prior to proceeding.
- Buffer A 50 mM Tris-HCl, pH 7.9, 4° C, 10% glycerol, 1 mM EDTA, 5 mM MgCl 2 , and protease inhibitor
- the 0.4 M (NH 4 ) 2 SO 4 eluate from DEAE-cellulose (261 mg protein, 290 ml) was diluted with sufficient Buffer A to lower the conductivity to the equivalent of Buffer A containing 0.15 M (NH 4 ) 2 SO 4 , centrifuged at 10,000 x g for 10 min. and the supernatant was loaded at a flow rate of 30 ml/hr onto an 30 ml DEAE-cellulose column equilibrated with Buffer A containing 0.15 M (NH 4 ) 2 SO 4 .
- the column was washed with 3 column volumes of Buffer A containing 0.2 M (NH 4 ) 2 SO 4 and developed with an 80 ml linear gradient of 0.2 - 0.6 M (NH 4 ) 2 SO 4 in Buffer A.
- the active fractions, which eluted at approximately 0.42 M (NH 4 ) 2 SO 4 were pooled (2.0 mg protein, 15 ml), frozen in 300 ⁇ l aliquots in liquid N 2 , and stored at -80° C where activity was stable for at least 6 months.
- Protein initiation factors used in the assay is accomplished by standard methods known in the art (e.g., phosphocellulose chromatography followed by gel filtration), as described in (Nature 346, 387-390 (1990)).
- a transcription assay is reconstituted using recombinant Candida albicans TBP.
- Supercoiled plasmid DNA containing the CYC1 promoter linked to the G-less cassette described by Lue et al. (Science 246, 661-664 (1989)) is purified by standard methods for purification of supercoiled circular DNA (Current Protocols in Molecular Biology, Vol. 2, 13, Suppl. 19 (1989)).
- RNA polymerase II 10 - 100 ng of Candida albicans TFIIB, 10 - 100 ng of Candida albicans TBP, 10 - 100 ng Candida albicans RNA polymerase II and 1 ⁇ g plasmid DNA are added to 50 ⁇ l reaction mixtures containing 50 mM HEPES, pH 7.5, 10% glycerol, 90 mM potassium glutamate, 0.75% polyethylene glycol (molecular weight 3350), 10 mM magnesium acetate, 5 mM EGTA, 5 mM DTT, 0.4 mM ATP, 0.4 mM CTP, 10 ⁇ M [ ⁇ - 32 P]UTP, 0.2 mM 3'-O-methyl-GTP, and containing or lacking a candidate inhibitor molecule. Reactions are incubated at 30° C for 30 - 60 min. and RNA synthesis is detected as described below. b) Detection of Transcribed RNA. The detection of newly transcribed RNA is achieved
- RNA synthesis can be detected as incorporation of a radioactively or fluorescently labeled nucleotide into higher molecular weight RNA products, determined by one of me following methods: 1) acid-insoluble labeled material quantitated by the appropriate method (e.g.
- TBP biological activity inhibits transcription.
- inhibition is measured as a reduction in the amount of mRNA transcript produced relative to the amount of mRNA transcript produced in the absence of the inhibitor (the positive control). A decrease in amount of mRNA transcript is indicative of an inhibitor.
- the determination of effective levels of mRNA transcript inhibition is described below.
- a DNA-protein binding assay consisting of the minimal components necessary to permit ONA-Candida albicans TBP binding to occur can be used to screen for inhibition of the formation of the ONA-Candida albicans TBP complex during transcription initiation.
- the essential elements of such an assay consist of; a) a DNA template, b) recombinant Candida albicans TBP, and optionally c) a candidate Candida albicans TBP inhibitor.
- an inhibitor molecule that interferes with the interaction between the Candida albicans TBP and the DNA template inhibits transcription initiation.
- the inhibitor may interact directly with the Candida albicans TBP protein, and/or it may interact with the DNA template at the DNA site of Candida albicans TBP binding.
- In this assay inhibition is measured as a reduction in the amount of DNA- Candida albicans TBP complex produced relative to the amount of DNA- Candida albicans TBP complex produced in the absence of the inhibitor (the positive control). A decrease in the amount of DNA- Candida albicans TBP complex is indicative of an inhibitor. Determination of effective levels of DNA- Candida albicansTEP inhibition is described below.
- One DNA binding assay is constructed as follows. 10 - 100 ng Candida albicans TBP, expressed in and purified from E. Coli as described above, is incubated with 0.5 ng labeled (e.g. radioactively or fluorescently labeled) oligonucleotide containing a TATA element such as the one described by Buratowski et al.
- labeled e.g. radioactively or fluorescently labeled
- Formation of a DNA-TBP complex may be detected as retention of labeled DNA (the label being detected by an appropriate methodology such as scintillation counting for radiolabeled DNA or fluorometry for fluorescently labeled DNA) utilizing known affinity methods for protein immobilization (e.g. , biotin/streptavidin, nitrocellulose filtration, affinity chromatography, irnmunoaffinity).
- affinity methods for protein immobilization e.g. , biotin/streptavidin, nitrocellulose filtration, affinity chromatography, irnmunoaffinity.
- Nonretention of labeled DNA due to the failure of Candida albicans TBP-DNA complex formation is indicative of an effective inhibitor.
- Complex formation may also be detected as retention of labeled Candida albicans TBP (e.g. radioactively, fluorescently) utilizing known methods for immobilizing DNA.
- a third example of detecting DNA/protein complex formation involves detection of an electrophroretic mobility shift of labeled DNA on 4% polyacrylamide gels containing 5% (v/v) glycerol, 25 mM Tris, 100 mM glycine, ImM EDTA, 5 mM MgCl 2 , pH 8.3 in the presence of Candida albicans TBP.
- the position of the labeled oligonucleotide is detected by appropriate methods (e.g., autoradiography for radioactive oligonucleotide).
- the absence or deviation of the expected mobility shift due to DNA- Candida albicans TBP complex formation is indicative of an effective inhibitor.
- a DNA-protein binding assay consisting of the minimal components necessary to permit DNA-Candida albicans TBP association to occur can be used to screen for inhibition of the formation of the DNA-TEP-Candida albicans TFIIB complex during transcription* initiation.
- the components of such an assay include: a) a DNA template, b) recombinant Candida albicans TBP, c) TFIIB, preferably from C. albicans, and optionally d) a candidate Candida albicans TBP inhibitor.
- an inhibitor molecule that interferes with the interaction between the Candida albicans TBP and the DNA template inhibits transcription initiation.
- the inhibitor may interact directly with the Candida albicans TBP protein, and/or it may interact with TFIIB and/or with the DNA template at the site of TFIIB/TBP binding.
- TFIIB the DNA template at the site of TFIIB/TBP binding.
- In this assay inhibition is measured as a reduction in the amount of DNA-TBP-TFIIB complex produced relative to the amount of DNA-TBP-TFIIB complex produced in the absence of the inhibitor (the positive control). A decrease in the amount of DNA-TBP- TFIIB complex is indicative of an inhibitor. Determination of effective levels of DNA- TBP-TFIIB inhibition is described below.
- One DNA binding assay is constructed as follows. 10 - 100 ng Candida albicans TBP, expressed in and purified from E. Coli as described above, is incubated with 0.5 ng labeled (e.g. radioactively or fluorescently labeled) oligonucleotide containing a TATA element such as the one described by Buratowski et al.
- labeled e.g. radioactively or fluorescently labeled
- Candida albicans TFIIB in reactions containing 10 - 20 mM HEPES (or equivalent), pH 7.5 - 8.0, 5 mM MgCl 2 , 12% glycerol, 10 mM dithiothreitol (DTT), 100 ⁇ g/ml BSA, 5 - 20 ⁇ g/ml poly (dG-dC):(dG-dC) and a candidate inhibitor of complex formation. Reactions are incubated at 30° C for 30-60 min.
- Formation of a DNA-TBP-TFIIB complex may be detected as retention of labeled DNA (the label being detected by an appropriate methodology such as scintillation counting for radiolabeled DNA or fluorometry for fluorescently labeled DNA) utilizing known affinity methods for protein immobilization (e.g., biotin/streptavidin, nitrocellulose filtration, affinity chromatography, immunoaffinity).
- affinity methods for protein immobilization e.g., biotin/streptavidin, nitrocellulose filtration, affinity chromatography, immunoaffinity
- Complex formation may also be detected as retention of labeled Candida albicans TBP (e.g. radioactively, fluorescently) utilizing known methods for immobilizing DNA.
- Nonretention of labeled Candida albicans TBP due to the failure of Candida albicans TFIIB-TBP-DNA complex formation is indicative of an effective inhibitor.
- the preceding two methods are suitable for high-throughput chemical compound library screening applications such as those commonly used in drug discovery.
- a third example of detecting DNA/protein complex formation involves detection of an electrophoretic mobility shift of labeled DNA on 4% polyacrylamide gels containing 5% (v/v) glycerol, 25 mM Tris, 100 mM glycine, ImM EDTA, 5 mM MgCl 2 , pH 8.3 in the presence of Candida albicans TFIIB and TBP.
- the position of the labeled oligonucleotide is detected by appropriate methods (e.g., autoradiography for radioactive oligonucleotide).
- the absence or deviation of the expected mobility shift due to DNA- Candida albicans TBP complex formation is indicative of an effective inhibitor.
- DNA-protein complexes may be used, including UV crosslinking analysis, high performance liquid chromatography, phage display technology (U.S. Patent No. 5,403,484. Viruses Expressing Chimeric Binding Proteins), and surface plasmon resonance (Biacore, Pharmacia Biosensor, North America) as described below.
- a protein-protein binding assay consisting of the minimal components necessary to permit Candida albicans TBP -Candida albicans TFIIB binding to occur can be used to screen for inhibition of the formation of the Candida albicans TBP-Candida albicans TFIIB complex during transcription initiation.
- the elements of such an assay consist of; a) recombinant Candida albicans TBP, b) TFIIB, preferably a recombinant Candida albicans TFIIB, and optionally c) a candidate inhibitor of binding.
- an inhibitor molecule that interferes with the interaction between the Candida albicans TBP and Candida albicans TFIIB inhibits transcription initiation.
- the inhibitor may interact with the Candida albicans TBP or TF1TB protein and thus induce a conformational change which prevents binding, or it may directly inhibit the interaction of Candida albicans TFIIB and TBP proteins.
- inhibition is measured as a reduction in the amount of Candida albicans TBP-TFIIB complex produced relative to the amount of Candida albicans TBP-TF1TB complex produced in the absence of the inhibitor (the positive control). A decrease in the amount of TFIIB-TBP complex is indicative of an inhibitor. Determination of effective levels of inhibition of Candida albicans TBP-TFIIB binding is described below.
- Candida albicans TBP-TFIIB complex One assay for formation of Candida albicans TBP-TFIIB complex is provided as follows. 10 - 100 ng Candida albicans TFIIB and 10 - 100 ng Candida albicans TBP are expressed in and purified from E. coli as described above, and are added to reactions containing 10 - 20 mM HEPES (or equivalent), pH 7.5 - 8.0, 5 mM MgCl 2 , 12% glycerol, 10 nM dithiothreitol (DTT) 100 ⁇ g/ml BSA, and a candidate inhibitor. The mixture is uien incubated at 30° C for 30 - 60 min.
- Formation of a complex comprising Candida albicans TBP and Candida albicans TFIIB may be detected by an electrophoretic mobility shift of labeled (e.g. radioactive or fluorescent) TBP or TFIIB on 4% polyacrylamide gels containing 5% (v/v) glycerol, 25 mM Tris, 100 mM glycine, ImM EDTA, 5 mM MgCl 2 , pH 8.3 in the presence of the unlabeled partner.
- the position of the labeled partner is detected by appropriate methods (e.g., autoradiography for radioactive oligonucleotide).
- the absence or deviation of the expected mobility shift due to Candida albicans TFIIB-TBP complex formation is indicative of an effective inhibitor.
- Formation of a complex comprising Candida albicans TBP and Candida albicans TFIIB may be detected as retention of labeled TBP utilizing known affinity methods for immobilizing the Candida albicans TFIIB protein (e.g., biotin/streptavidin, nitrocellulose filtration, affinity chromatography, immunoaffmity).
- affinity methods for immobilizing the Candida albicans TFIIB protein e.g., biotin/streptavidin, nitrocellulose filtration, affinity chromatography, immunoaffmity.
- the failure of formation of the Candida albicans TFIIB-TBP complex is indicative of inhibition, and is indicated by nonretention of labeled TBP.
- the immobilized element may be Candida albicans TBP and the labeled partner Candida albicans TFIIB.
- a stronger signal may be conferred in the presence of both TBP and TFIIB and, in addition, a DNA template containing a TATA element.
- the complex is then quantitated by autoradiography, Phosphorimager technology, or scintillation counting for radioactively labeled factors, fluorometry for fluorescently labeled factors, luminometry for factors labeled with ligands that are detected using chemiluminescent or phosphorescent probing methodologies, or other similar detection methods or materials labeled as described above that are standard in the art.
- TFIIF TFIIF from S. cerevisiae can function in species as distantly related as Schizosaccharomyces pombe and humans, strongly suggesting that this factor can functionally replace its C. albicans homolog. Accordingly, this factor is purified from S. cerevisiae by published methods (Sayre, 1992, J. Biol. Chem. 267:23383) and used to reconstitute formation of a complex containing C.
- Candida albicans TBP, TFIIB, RNA polymerase II and promoter containing DNA such as that described for reconstitution of the TFIIB- TBP-DNA complex.
- Complex formation is carried out in reactions containing, for example, 10 - 100 ng Candida albicans TBP, 10 - 100 ng Candida albicans TFIIB, 10 - 100 ng Candida albicans RNA polymerase II, 10 - 100 ng S.
- TFIIF cerevisiae TFIIF
- 0.5 ng double- stranded TATA element containing-oligonucleotide (same as that used for TFIIB-TBP- DNA complex assay)
- 10 - 20 mM HEPES or equivalent
- pH 7.5 - 8.0 pH 7.5 - 8.0
- 5 mM MgCl 2 12% glycerol
- DTT dithiothreitol
- TBP-TFIIB-RNA polymerase II-DNA complex has a slower electrophoretic mobility than the TBP-TFIIB-DNA complex identified by using the electrophoretic method.
- complex formation can be detected as TBP, TFIIB-dependent retention of RNA polymerase II activity (measured by incorporation of labeled nucleotide precursors into acid-insoluble product using the assay for RNA polymerase activity described in the RNA polymerase II purification protocol above) on a matrix with bound TATA-element containing DNA.
- the IC of inhibitory compounds will be determined by titration into reactions reconstituted as described above.
- the ICso of these compounds against reactions reconstituted with human TBP, TFIIB and RNA polymerase II will also be determined by the same method.
- Human RNA polymerase II and TFIIF are purified as described previously (Flores et al., 1990, J. Biol. Chem. 265:5629-5634; Reinberg et al., J. Biol. Chem 262:3310-3321).
- Those compounds whose IC 50 against reactions containing C. albicans factors is ⁇ 1/5 of their IC 50 against reactions reconstituted with human factors will be tested for their ability to inhibit C. albicans growth as described below.
- Phage display permits identification of a binding protein against a chosen target.
- Phage display is a protocol of molecular screening which utilizes recombinant bacteriophage. The technology involves transforming bacteriophage with a gene that encodes an appropriate ligand (in this case, a candidate inhibitor) capable of binding to the target molecule of interest.
- the target molecule may be Candida albicans TBP, or a DNA- protein or protein-protein complex formed using TBP and/or TFIIB, as described herein.
- the transformed bacteriophage (which preferably is tethered to a solid support) express the candidate inhibitor and display it on their phage coat.
- the cells or viruses bearing the candidate inhibitor which recognize the target molecule are isolated and amplified. The successful inhibitors are then characterized.
- Phage display technology has advantages over standard affinity ligand screening technologies.
- the phage surface displays the microprotein ligand in a three dimensional conformation, more closely resembling its naturally occurring conformation. This allows for more specific and higher affinity binding for screening purposes.
- Biospecific Interaction Analysis A second relatively new screening technology which may be applied to the inhibitor screening assays of this invention is biospecific interaction analysis (BIAcore, Pharmacia Biosensor AB, Uppsala, Sweden). This technology is described in detail by Jonsson et al. (Biotechniques 11:5, 620-627 (1991)). Biospecific interaction analysis utilizes surface plasmon resonance (SPR) to monitor the adsorption of biomolecular complexes on a sensor chip. SPR measures the changes in refractive index of a polarized light directed at the surface of the sensor chip.
- SPR surface plasmon resonance
- Specific ligands i.e., candidate inhibitors
- the target molecule of interest i.e., Candida albicans TBP or a protein-protein or protein-DNA complex containing TBP
- the target molecule of interest i.e., Candida albicans TBP or a protein-protein or protein-DNA complex containing TBP
- the nascent immobilized ligand-target molecule complex causes a change in the refractive index of the polarized light and is detected on a diode array.
- Biospecific interaction analysis provides the advantages of; 1) allowing for label-free studies of molecular complex formation; 2) studying molecular interactions in real time as the assay is passed over the sensor chip; 3) detecting surface concentrations down to 10 pg/mnf; detecting interactions between two or more molecules; and 4) being fully automated (Biotechniques 11:5, 620-627 (1991)).
- the screening methods disclosed herein encompass screening of multiple samples simultaneously, also referred to herein as 'high throughput' screening.
- high throughput screening from several hundred to several thousand candidate inhibitors may be screened in a single assay.
- high throughput screening assays useful according to the invention are as follows.
- a protein A (pA)-C. albicans TBP fusion protein is generated by inserting the coding sequence of TBP in frame downstream of the pA coding sequence of the plasmid pRIT2T (Pharmacia Biotech). The fusion construct is induced, and the resultant recombinant protein is extracted and purified according to the manufacturer's recommended conditions. This procedure can also be carried out for the preparation of a p A- Candida albicans TFIIB fusion protein except that the downstream coding sequence is that of TFIIB protein; all other steps would remain the same.
- a Dynatech Microlite 2 microtiter plate or equivalent high protein-binding capacity plate is coated with 1 ⁇ g/well human IgG by incubating 300 ⁇ l 3.33 ⁇ g/ml human IgG (Sigma) in coating buffer (0.2 M sodium carbonate, pH 9.4) in the well for 4-12 hr at 4°C. The coating buffer is then decanted and the wells are washed five times with 300 ⁇ l PBS. 300 ⁇ l blocking buffer (SuperBlockTM blocking buffer; Pierce) containing 3.33 ⁇ g/ml pA-TBP or pA-TFIIB are added and the plate is incubated for 4 or more hours at 4°C. The plates may be stored in this form at 4°C until ready for use.
- coating buffer 0.2 M sodium carbonate, pH 9.4
- the plates When ready for use the plates are washed five times with 300 ⁇ l PBS. Test compound at a final concentration of 20-200 ⁇ M, labeled TBP or TFIIB (i.e., nonfusion protein), whichever is not added during the coating step, and 10 - 1000 fmol promoter-containing oligonucleotides are suspended in HEG buffer containing 200 ⁇ g/ml BSA in a total volume of 150 ⁇ l and are added and the reaction is incubated at room temperature with gentle agitation for 60 min. The plate is then washed five times with PBS using a Dynatech plate washer or equivalent. Bound labeled protein is quantitated by adding 250 ⁇ l Microscint (Packard) per well and is counted in a microtiter plate-compatible scintillation spectrophotometer.
- TBP or TFIIB i.e., nonfusion protein
- the protein A fusion and the second, non-fusion protein can be incubated in the presence of test compound in polypropylene microtiter plates under the same buffer and incubation conditions described above.
- the reaction mix is then transferred to the wells of a microtiter plate coated with human IgG (which is prepared as described above, and is stored in blocking buffer and is washed five times with 300 ⁇ l PBS immediately before use) and is incubated for 60 min at room temperature with gentle agitation. Retention of radioactive protein is quantified as above.
- TBP and TFIIB Interaction of TBP and TFIIB, which is measured as retention of radioactivity on the plate, is dependent on human IgG coating the plate and wild-type Candida albicans TBP or TFIIB, one of which must be fused to pA.
- Candidate inhibitors or extracts that inhibit retention of radioactivity by more than 30% are identified and the inhibitory activity is further purified if necessary.
- Inhibitors identified as described above are then tested for their ability to inhibit Candida albicans TBP-dependent transcription in an in vitro transcription system as described herein, and also may be tested for their ability to inhibit Candida albicans growth.
- Other fusion or modified protein systems that are contemplated include, but are not limited to, glutathione-S-transferase, maltose binding protein, influenza virus hemaglutinin, FLAGTM and hexahistidine fusions to Candida albicans TBP or Candida albicans TFIIB which are prepared, expressed, and purified by published methods or biotinylated Candida albicans TBP or TFIIB which are prepared using reactive biotin precursors available commercially.
- the purified fusion or modified protein is immobilized on a microtiter plate containing the appropriate ligand for each fusion protein (e.g. glutathione, amylose, CA157 antibody, etc., respectively) and the assay is carried out and the results evaluated in essentially the same manner as described above.
- the appropriate ligand for each fusion protein e.g. glutathione, amylose, CA157 antibody, etc., respectively.
- a “candidate inhibitor,” as used herein, is any compound with a potential to inhibit Candida albicans TBP-mediated transcription initiation or complex formation.
- a candidate inhibitor is tested in a concentration range that depends upon the molecular weight of the molecule and the type of assay. For example, for inhibition of protein/protein or protein/DNA complex formation or transcription initiation, small molecules (as defined below) may be tested in a concentration range of lpg - 100 ug/ml, preferably at about 100 pg - 10 ng/ml; large molecules, e.g., peptides, may be tested in the range of 10 ng - 100 ug/ml, preferably 100 ng - 10 ug/ml.
- Candida albicans growth or viability may target the novel transcription factor described herein, TBP, or it may target a protein or nucleic acid that interacts with the novel transcription factor so as to prevent the natural biological interaction that occurs in vivo and leads to transcription initiation in Candida.
- an inhibitor identified as described herein will possess two properties: 1) at some concentration it will inhibit Candida albicans growth or viability; and 2) at the same concentration, it will not signficantly affect the growth of mammalian, particularly human, cells.
- Candidate inhibitors will include peptide and polypeptide inhibitors having an amino acid sequence based upon the novel TBP sequences described herein.
- a fragment of TBP may act as a competitive inhibitor with respect to TBP binding to other proteins involved in Candida transcription, e.g., RNA polymerase II, TFIIB, or with respect to binding of the transcription complex to the DNA template.
- Candidate inhibitor compounds from large libraries of synthetic or natural compounds can be screened. Numerous means are currently used for random and directed synthesis of saccharide, peptide, and nucleic acid based compounds. Synthetic compound libraries are commercially available from a number of companies including Maybridge Chemical Co. (Trevillet, Cornwall, UK), Comgenex (Princeton, NJ), Brandon Associates (Merrimack, NH), and Microsource (New Milford, CT). A rare chemical library is available from Aldrich (Milwaukee, WI).
- Combinatorial libraries are available and can be prepared.
- libraries of natural compounds in the form of bacterial, fungal, plant and animal extracts are available from e.g., Pan Laboratories (Bothell, WA) or MycoSearch (NC), or are readily produceable.
- natural and synthetically produced libraries and compounds are readily modified through conventional chemical, physical, and biochemical means.
- Useful compounds may be found within numerous chemical classes, though typically they are organic compounds, and preferably small organic compounds. Small organic compounds have a molecular weight of more than 50 yet less than about 2,500 daltons, preferably less than about 750, more preferably less than about 350 daltons. Exemplary classes include heterocycles, peptides, saccharides, steroids, and the like. The compounds may be modified to enhance efficacy, stability, pharmaceutical compatibility, and the like. Structural identification of an agent may be used to identify, generate, or screen additional agents.
- peptide agents may be modified in a variety of ways to enhance their stability, such as using an unnatural amino acid, such as a D-amino acid, particularly D-alanine, by functionalizing the amino or carboxylic terminus, e.g. for the amino group, acylation or alkylation, and for the carboxyl group, esterification or amidification, or the like.
- an unnatural amino acid such as a D-amino acid, particularly D-alanine
- Other methods of stabilization may include encapsulation, for example, in liposomes, etc.
- the amount of inhibition by a candidate inhibitor is quantified using the following formula, which describes reactions reconstituted with a radioactively labeled moiety.
- Contro is the average of the cpm in complexes or RNA molecules formed in reactions that lack the candidate inhibitor
- CPM Sample is the cpm in complexes formed in reactions containing the candidate inhibitor.
- Candidate inhibitors for which the percent inhibition is 50% are titrated into reactions containing either Candida albicans TBP or human TBP (expressed in and purified from E.
- Candida albicans TBP using existing recombinant clones (Peterson et al., Science 248, 1625-1630, 1990; Kao et al., Science 248, 1646- 1650, 1990; Hoffman, et al., Nature 346, 387-390, 1990, and assayed as described above) and their IC J Q with respect to human and Candida albicans TBP determined from graphs of compound concentration vs. % inhibition.
- the IC 50 is defined as the concentration that results in 50% inhibition.
- Candidate inhibitors for which the IC 50 against Candida albicans TBP-containing reactions is less than or equal to 1/5 the IC 50 against human TBP- containing reactions are further tested for their ability to inhibit the growth of Candida albicans in culture as described below. W
- a candidate inhibitor is tested for its ability to inhibit growth of Candida albicans cells in culture as follows. Methods for performing tests on growth inhibition in culture are well-known in the art. Once such procedure is based on the NCCLS M27P method (The National Committee for Clinical Laboratory Standards, Reference Method for Broth Dilution Antifungal Susceptibility Testing of Yeasts; proposed standard, 1992), as follows.
- Serial dilutions (two- or three ⁇ fold steps starting from a maximum concentration of 100 - 200 ⁇ g/ml) of candidate inhibitor are prepared using RPMI-1640 medium as diluent and an aliquot of 100 ⁇ l of each dilution is added to the wells of a 96- well polystyrene microtiter plate.
- Five Candida albicans colonies picked from a Sabouraud Dextrose Agar plate inoculated 14-20 hr previously with the test Candida albicans strain (Catalog number 10231 from the American Type Culture Collection Yeast Catalog), are resuspended in RPMI-1640 medium such that the density of cells is 10,000 - 30,000 cells/ml.
- MIC minimum inhibitory concentration
- MICs for known antifungal compounds obtained using this technique are 0.125 - 0.5 ⁇ g/ml for fluconazole and 0.25 - 1.0 ⁇ g/ml for amphotericin B (The National Committee for Clinical Laboratory Standards, Reference Method for Broth Dilution Antifungal Susceptibility Testing of Yeasts; proposesd standard, 1992).
- An inhibitor identified by the methods described herein, will have MIC which is equivalent to or less than the MICs for fluconazole or amphotericin B.
- a compound identified as an inhibitor of Candida albicans according to one or more of the assays described herein may be tested further in order to determine its effect on the host organism.
- useful antifungal compounds for human therapeutics it is desirable that such compounds act as effective agents in inhibiting the viability of the fungal pathogen while not significantly inhibiting human cell systems.
- inhibitors of Candida albicans identified in any one of the above described assays may be counterscreened for inhibition of human TBP.
- Recombinant human TBP can be obtained from existing sources and purified by published methods (for example, see Peterson et al., Kao et al. , and Hoffman et al.
- Candida albicans TBP inhibitor as a human therapeutic is determined as one which exhibits a low level of inhibition against human TBP relative to the level of inhibition with respect to Candida albicans TBP.
- the amount of inhibition by a given inhibitor of human TBP in a human system be no more than 20% with respect to the amount of inhibition of Candida albicans TBP/TFIB in a Candida system when tested in any of the assays described above.
- inhibitors identified as described herein may be administered in a pharmaceutically acceptable/biologically compatible formulation, for example, in the form of a cream, ointment, lotion or spray for topical use, or in a physiological solution, such as a salt solution, for internal administration.
- the amount of inhibitor administered will be determined according to the degree of pathogenic infection and whether the infection is systemic or localized, and will typcially be in the range of about lug - 100 mg/kg body weight. Where the inhibitor is a peptide or polypeptide, it will be administered in the range of about 100 - 500 ug/ml per dose.
- a single dose of inhibitor or multiple doses, daily, weekly, or intermittently, is contemplated according to the invention.
- the route of administration will be chosen by the physician, and may be topical, oral, transdermal, nasal, rectal, intravenous, intramuscular, or subcutaneous.
- E. coli transformed with a plasmid containing the gene encoding Candida albicans TBP has been deposited in an international depository, the A.T.C.C, Rockville, MD, under the accession number 69900, on September 15, 1995.
- E. coli transformed with a plasmid containing the gene encoding Candida albicans TFIIB has been deposited in an international depository, the A.T.C.C, Rockville, MD, under the accession number 69899, on September 15, 1995.
- A.T.C.C. Nos. 69900 and 69899 will be available to the public upon the grant of a patent which discloses the accession numbers in conjunction with the invention described herein.
- ADDRESSEE DARBY & DARBY P.C.
- B STREET: 805 Third Avenue
- ATTORNEY/AGENT INFORMATION (A) NAME: S. PETER LUDWIG, ESQ. (B) REGISTRATION NUMBER: 25,351
- MOLECULE TYPE peptide
- HYPOTHETICAL NO
- ANTISENSE NO
- FRAGMENT TYPE internal
Abstract
L'invention concerne un nouveau facteur de transcription issu du Candida albicans, la protéine de fixation de la boîte TATA (TBP), une séquence nucléotidique codant la protéine de fixation de la boîte TATA (TBP) ainsi que des techniques permettant de mener des épreuves de sélection pour des inhibiteurs de la croissance du Candida albicans par ciblage de la TBP.
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EP97918612A EP0904289A4 (fr) | 1996-04-01 | 1997-03-31 | Proteine de fixation de la boite tata du candida albicans, acide nucleique la codant et epreuves de selection afferentes |
JP53563197A JP2001503603A (ja) | 1996-04-01 | 1997-03-31 | カンディダ アルビカンスからの新規tata―結合タンパク質、それをコード化する核酸配列、及びカンディダ アルビカンス増殖の阻害のためのスクリーニング方法 |
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WO1999055907A2 (fr) * | 1998-04-24 | 1999-11-04 | Hoechst Marion Roussel | Procede de criblage de substances antimycosiques utilisant des genes essentiels provenant de s. cerevisiae |
GB9817796D0 (en) * | 1998-08-14 | 1998-10-14 | Janssen Pharmaceutica Nv | Drug targets in candida albicans |
EP0999284A1 (fr) * | 1998-09-11 | 2000-05-10 | Hoechst Marion Roussel | Procédé de triage pour des substances antimycotiques utilisant des gènes dérivant de C.albicans, et les gènes eux-mêmes |
DE69935247T2 (de) * | 1998-12-04 | 2007-10-31 | Janssen Pharmaceutica N.V. | Arzneimittel-ziele in candida albicans |
AU2392300A (en) * | 1998-12-31 | 2000-07-31 | Millennium Pharmaceuticals, Inc. | Use of essential (saccharomyces) genes and polypeptides |
JP2002535989A (ja) | 1999-02-04 | 2002-10-29 | アナディーズ・ファーマスーティカルズ,インコーポレイテッド | カンジダ・アルビカンスsrb‐7 |
US8158340B2 (en) | 2005-12-28 | 2012-04-17 | Corning Incorporated | Methods for detecting conformational changes in bioentities |
Family Cites Families (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
EP0681585A4 (fr) * | 1993-01-28 | 1998-09-30 | Univ California | Facteurs associes a la proteine de liaison tata, acides nucleiques codant ces facteurs, et procedes d'utilisation. |
US5569588A (en) * | 1995-08-09 | 1996-10-29 | The Regents Of The University Of California | Methods for drug screening |
-
1997
- 1997-03-31 CA CA002250129A patent/CA2250129A1/fr not_active Abandoned
- 1997-03-31 EP EP97918612A patent/EP0904289A4/fr not_active Withdrawn
- 1997-03-31 JP JP53563197A patent/JP2001503603A/ja active Pending
- 1997-03-31 WO PCT/US1997/006170 patent/WO1997036925A1/fr not_active Application Discontinuation
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