Provided are polynucleotides encoding variants of nitrous oxide reductase proteins, recombinant microorganisms including a foreign gene encoding a variant of a nitrous oxide reductase protein, and a composition comprising the recombinant microorganism or the variant of a nitrous oxide reductase protein for use in removing nitrous oxide in a sample.

A biosensor for detecting nitrotoluenes. Two P. putida host populations (H-I and H-II) are engineered. H-1 undergoes fluorescence when a nitrotoluene is detected but it is also engineered to metabolize nitrotoluenes to toluene as its sole nitrogen-source. H-I is 1-ACC Deaminase inactive and is further engineered to efflux toluene and provide toluene to adjacent H-II. In H-II, ACC is the N-source and metabolizes toluene as the sole carbon and energy source available. The H-II cells are engineered to not be able to use medium fructose. The H-II population has a promoter/GFP construct with a promoter sensitive to toluene and thus they fluoresce from that first nitrotoluene metabolite i.e. toluene, produced by the H-I cells. This is achieved by making H-II cells mutants unable to transport and phosphorylate fructose i.e. PTSFRU gene knock-out.

The present invention is related to the field of reddening of food products. In particular the present invention relates to the preservation or optimization of nitrate reductase activity of frozen and/or dried lactic acid bacteria cultures or Micrococcaceae cultures (particularly cultures comprising one or more species of Staphylococcus having nitrate reductase activity).

A novel technique for reducing the mis-cleavage of the TorA signal peptide, and thereby a method for efficient secretory production of a heterologous protein by a coryneform bacterium using a TorA signal peptide is provided. A coryneform bacterium having an ability of secretory production of a heterologous protein using a TorA signal peptide and has been modified so that the activity of a LepB protein is increased is cultured to produce the heterologous protein by secretory production.

The present invention discloses a gene OsNia3 of a rice nitrate reductase NIA3 protein. The cDNA sequence of the gene is as set out in SEQ ID NO.1, and the rice NIA3 protein encoded by it has an amino acid sequence as set out in SEQ ID NO.2. A homozygous mutant in which the rice gene OsNia3 is knocked out and a homozygous line in which the OsNia3 is over-expressed are obtained by utilizing a transgenic technology. It has been discovered by analysis that the line in which the OsNia3 gene is knocked out has a shortened plant height and a shorted growth period; while the line in which the OsNia3 is over-expressed has a relatively high plant height and a prolonged growth period.

The present invention is related to the field of reddening of food products. In particular the present invention relates to the preservation of nitrate reductase activity of frozen and/or dried lactic acid bacteria culture or Micrococcaceae culture.

The invention belongs to the field of genetic engineering in plants. In particular, the invention relates to a method for improving efficiency of genetic transformation and gene editing in plants. More particularly, the invention relates to a method for improving regeneration efficiency of genetic transformation and/or gene editing efficiency in plants by expression of gene NiR which promotes nitrogen metabolism in plants.

A plant cell comprising: (a) a polynucleotide sequence encoding a nitrate reductase polypeptide comprising a contiguous polypeptide sequence of SEQ ID NO: 5 or SEQ ID NO: 7, wherein methionine is substituted for an amino acid that reduces nitrate reductase activity in the plant cell as compared to a control plant cell; (b) a polypeptide sequence encoded by the polynucleotide sequence set forth in (a); or (c) a construct, vector or expression vector comprising the polynucleotide sequence set forth in (b).

Provided are a resistant protein for use in herbicide dicamba, encoding gene and application thereof, the gene comprising: (a) a nucleotide sequence of an amino acid sequence as shown in SEQ ID NO: 2; or (b) a nucleotide sequence which is complementary to the nucleotide sequence as defined by (a) under stringent conditions; or (c) a nucleotide sequence as shown in SEQ ID NO: 1.

The present invention relates to methods for constructing a recombinant fungal host cell comprising one or more copies of a polynucleotide construct integrated in its genome, said method comprising transforming a fungal host cell with an integrative polynucleotide construct comprising a first polynucleotide encoding a selectable marker, wherein the first polynucleotide, a 5 untranslated region thereof and/or a riboswitch operably linked therewith comprises a spliceosomal intron which has 5 nucleotides or less between its branch site and its acceptor site; and a second polynucleotide encoding a polypeptide of interest; as well as suitable polynucleotide constructs, resulting fungal host cells and methods of manufacture.