Abstract: A method for determining the amount of template nucleic acid present in a sample comprising the steps of: i) bringing into association with the sample all the components necessary for nucleic acid amplification, and all the components necessary for a bioluminescence assay for nucleic acid amplification and subsequently: ii) performing the nucleic acid amplification reaction; iii) monitoring the intensity of light output from the bioluminescence assay; and iv) determining the amount of template nucleic acid present in the sample.

Abstract: Use of a luciferase that has a mutation of at least one amino acid selected from the group consisting of positions 14, 35, 182, 232 and 465, where the numbering is according to the sequence of the luciferase from P. pyralis (SEQ ID NO:1) in a method that is performed at a pH below the optimal pH for the wild-type luciferase during at least part of the time period over which bioluminescence measurements are taken, wherein the specific activity of the mutant luciferase is higher than the specific activity of wild-type at the pH at which the method is carried out.

Abstract: A method for determining the amount of template nucleic acid present in a sample comprising the steps of: i) bringing into association with the sample all the components necessary for nucleic acid amplification, and all the components necessary for a bioluminescence assay for nucleic acid amplification and subsequently: ii) performing the nucleic acid amplification reaction; iii) monitoring the intensity of light output from the bioluminescence assay; and iv) determining the amount of template nucleic acid present in the sample.

Abstract: A method for determining the extent of a processive nucleic acid polymerase reaction producing pyrophosphate can be conducted, in the presence of all components necessary for the progression of nucleic acid synthesis, wherein the components comprise a substrate for the nucleic acid polymerase which is either dATP or a dATP analogue. The method includes a pyrophosphate assay comprising the steps of conversion of the pyrophosphate to ATP and detection of light produced by the bioluminescence reaction of a luciferase with ATP, wherein one or both of the following apply: a) the luciferase reacts with ATP and the substrate, such that the spectral overlap is reduced relative to the spectral overlap between the outputs of reaction between wild-type Photinus pyralis luciferase with ATP and dATP respectively; and b) the luciferase reacts with the substrate to give a reduced bioluminescence relative to that produced by the reaction of wild-type Photinus pyralis luciferase with dATP.

Abstract: A process is provided for modifying growth or architecture of plants by altering the level or the functional level of a cell division controlling protein, preferably a cell-division controlling protein that binds or phosphorylates retinoblasoma-like proteins, more preferably a cyclin, particularly a D-type cyclin within cells of a plant. Also provided are chimeric genes comprising a transcribed DNA region encoding an RNA or a protein, which when expressed either increases or decreases the level or functional level of a cell-division controlling protein, and plant cells and plants expressing such chimeric genes.

Abstract: A process is provided for modifying growth or architecture of plants by altering the level or the functional level of a cell division controlling protein, preferably a cell-division controlling protein that binds phosphorylates retinoblasoma-link proteins, more preferably a cyclin, particularly a D-type cyclin within cells of a plant. Also provided are chimeric genes comprising a transcribed DNA region encoding an RNA or a protein, which when expressed either increases or decreases the level or functional level of a cell-division controlling protein, and plant cells and plants expressing such chimeric genes.

Abstract: Enzymes and methods suitable for assaying ATP, and specific application for such assays are described and claimed. In particular, there is described a recombinant mutant luciferase having a mutation for example, in the amino-acid corresponding to amino acid residue number 245 in Photinus pyralis, is such that the Km for ATP of the luciferase is increased e.g. five-fold with respect to that of the corresponding non-mutated enzyme such that it is of the order of 500 &mgr;m-1 mM. Also disclosed are luciferases having additional mutations conferring improved thermostability or altered wavelength of emitted light. Recombinant polynucleotides, vectors and host cells are also disclosed, as are methods of assaying the amount of ATP in a material (e.g. cells) optionally in real-time. Also disclosed are test-kits for in vitro assays.