Abstract: Isolated nucleic acid molecules encoding human MEKK proteins, and isolated MEKK proteins, are provided. The invention further provides antisense nucleic acid molecules, recombinant expression vectors containing a nucleic acid molecule of the invention, host cells into which the expression vectors have been introduced and nonhuman transgenic animals carrying a human MEKK transgene. The invention further provides human MEKK fusion proteins and anti-human MEKK antibodies. Methods of using the human MEKK proteins and nucleic acid molecules of the invention are also disclosed, including methods for detecting human MEKK activity in a biological sample, methods of modulating human MEKK activity in a cell, and methods for identifying agents that modulate the activity of human MEKK.

Abstract: A therapy for preventing tumor recurrence in patients with Ta, T1, and Tis transitional cell carcinoma. The therapy is an adjuvant intravesical therapy, i.e., it is employed on patients following transurethral resection of the Ta, T1, or Tis carcinoma. The therapy comprises the steps of reducing the volume of urine in the bladder of the patient to a value of about 10 ml or less; and then administering an aqueous solution containing at least 2 mg/ml of MMC to the bladder of the patient for a period of at least about 120 minutes. The volume of solution administered to the bladder of the patient is at least about 20 ml. Preferably, the therapy is administered to the patient weekly multiple times. Preferably, the therapy further comprises the step of reducing the amount of urine produced by the patient during the time MMC is administered to the patient to a value of 1 ml/min or less.

Abstract: An iterative and regenerative method for sequencing DNA is described. This method sequences DNA in discrete intervals starting at one end of a double stranded DNA segment. This method overcomes problems inherent in other sequencing methods, including the need for gel resolution of DNA fragments and the generation of artifacts caused by single-stranded DNA secondary structures. A particular advantage of this invention is that it can create offset collections of DNA segments and sequence the segments in parallel to provide continuous sequence information over long intervals. This method is also suitable for automation and multiplex automation to sequence large sets of segments.

Abstract: The present invention makes available a rapid, effective assay for screening and identifying pharmaceutically effective compounds that specifically interact with and modulate the activity of a cellular receptor or ion channel. The subject assay enables rapid screening of large numbers of polypeptides in a yeast expression library to identifying those polypeptides which induce or antagonize receptor bioactivity. The subject assay is particularly amenable for identifying surrogate ligands for orphan receptors.

Abstract: The invention provides isolated yeast cells which comprise a mutation in an endogenous yeast CAV1 gene, which exhibit increased signaling via the pheromone response pathway. In a preferred embodiment, the cav1 mutant yeast cells of the invention also express a heterologous G protein coupled receptor that functionally couples to the pheromone response pathway. The instant yeast cells display enhanced sensitivity to ligand induced stimulation of heterologous G protein coupled receptors and, therefore, show improved properties in drug screening assays.

Abstract: Apparatus for determining the location of a signal-generating source (e.g., a conferee in a telephone conference) includes at least three sensors (e.g., microphones) arranged in a plurality of sets, each having two or more sensors. A surface-finding element responds to receipt at each sensor set of signals (e.g., speech) from the source for identifying a geometric surface (e.g., the surface of a hyperboloid or cone) representing potential locations of the source as a function of sensor locations and time difference of arrival of the signals. A location-approximating element coupled to two or more of the sets identifies a line that further defines potential source locations at the intersection of the surfaces. A location signal representing those potential locations is generated in accord with parameters of that line. Further functionality generates generating the location signal as a function of closest intersections the plural ones of the aforementioned lines.

Abstract: A nonhuman animal having somatic and germ cells in which at least one allele of an endogenous SLP-76 gene is functionally disrupted is provided. The animal may be heterozygous or, more preferably, homozygous for the SLP-76 gene disruption and is preferably a mouse. In homozygous animals, the percentage of peripheral T cells is substantially decreased compared to wildtype animals, whereas the percentage of B cells and macrophages in the periphery is substantially normal, indicating that SLP-76 disruption causes a profound block in T cell development. The animals of the invention can be used, for example, as controls to evaluate the efficacy of SLP-76 inhibitors and to identify disease conditions that can be treated with SLP-76 inhibitors. A transgenic nonhuman animal having a functionally disrupted endogenous SLP-76 gene but which has been reconstituted with an exogenous SLP-76 transgene (e.g., a human SLP-76 gene or a SLP-76 gene whose expression in targeted to a particular cell population) is also provided.

Abstract: An iterative and regenerative method for sequencing DNA is described. This method sequences DNA in discrete intervals starting at one end of a double stranded DNA segment. This method overcomes problems inherent in other sequencing methods, including the need for gel resolution of DNA fragments and the generation of artifacts caused by single-stranded DNA secondary structures. A particular advantage of this invention is that it can create offset collections of DNA segments and sequence the segments in parallel to provide continuous sequence information over long intervals. This method is also suitable for automation and multiplex automation to sequence large sets of segments.

Abstract: The invention is directed to novel 6-aromatic substituted uracil compounds of formula I therapeutic compositions comprising the compounds, and methods of treating Herpes simplex virus Type I and Type II recurrent infections and Herpes simplex virus Type I and Type II encephalitis in humans using the compounds and/or therapeutic compositions.