The present disclosure provides compositions and methods for generating plants that can grow in saline conditions, or remove a salt or other impurity from water, for example plants that can remove sodium chloride from salt or sea water, and plants that can produce purified water from salt or sea water.

A genetically modified houseplant capable of reducing levels of volatile organic carcinogenic compounds, such as formaldehyde, benzene, and chloroform, in the indoor air in urban homes of developed countries is disclosed. The plant expresses a detoxifying transgene, mammalian cytochrome P450 2e, and has shown sufficient detoxifying activity against benzene and chloroform. Air purifying biofilters utilizing the plants and methods of their use are also disclosed.

The invention provides a genetically modified plant or plant cell transformed with an isolated nucleic acid, wherein the isolated nucleic acid encodes a SYAC1 protein or a protein related to the SYAC1 protein or a protein with at least about 80%, 85%, 90%, 95%, 98%, 99% or more sequence identity protein with a SYAC1 protein. The invention also provides a genetically modified plant or plant cell engineered to express a reduced level, or no, SYAC1 protein. A genetically modified plant according to the invention may be more resistant to infection by Plasmodiophora brassicae. Alternatively, the invention provides a genetically modified plant with increased levels of SYAC1 protein or related protein which is more receptive to beneficial microorganisms and/or grows more effectively on land contaminated with heavy metals.

This invention relates to methods for increasing carbon fixation and/or increasing biomass production in a plant, comprising: introducing into a plant, plant part, and/or plant cell heterologous polynucleotides encoding (1) a succinyl CoA synthetase, (2) a 2-oxoglutarate:ferredoxin oxidoreductase, (3) a 2-oxoglutarate carboxylase, (4) an oxalosuccinate reductase, or (5) an isocitrate lyase, or (6) a succinyl CoA synthetase and a 2-oxoglutarate:ferredoxin oxidoreductase, (7) a 2-oxoglutarate carboxylase and an oxalosuccinate reductase polypeptide, and/or (8) a 2-oxoglutarate carboxylase polypeptide, an oxalosuccinate reductase polypeptide and an isocitrate lyase polypeptide to produce a stably transformed plant, plant part, and/or plant cell, wherein said heterologous polynucleotides are from a bacterial and/or an archaeal species. Additionally, transformed plants, plant parts, and/or plant cells are provided as well as products produced from the transformed plants, plant parts, and/or plant cells.

The present disclosure provides compositions and methods for generating plants that can grow in saline conditions, or remove a salt or other impurity from water, for example plants that can remove sodium chloride from salt or sea water, and plants that can produce purified water from salt or sea water.

The present disclosure is directed to methods of improving mycorrhization in a plant or plant cell. Another aspect of this disclosure is directed to a genetically modified plant or plant cell with improved mycorrhization.

The present disclosure provides compositions and methods for generating plants that can grow in saline conditions, or remove a salt or other impurity from water, for example plants that can remove sodium chloride from salt or sea water, and plants that can produce purified water from salt or sea water.

The invention relates to a method to change the capacity of a plant for adaptation to changes in the zinc concentration in the environment, especially the soil, comprising providing said plant with a nucleotide according to SEQ ID NO:1 or SEQ ID NO: 2 or an ortholog thereof. Such a method is especially useful to decrease Zn deficiency or to (hyper)accumulate Zn in plants for bioremediation or for biofortification. Transgenic plants for these proteins are also disclosed.

The disclosure provides polynucleotides, polypeptides, transgenic plants, cells and vectors useful for crop plants to augment the basal level of aluminum and heavy metal tolerance.

The present disclosure provides compositions, methods of use, and methods of creation for a population of transgenic plants derived from plant cells transformed with recombinant DNA for expression of heterologous proteins. In particular, the present disclosure provides compositions comprising indoor ornamental plants suited for the removal of volatile organic compounds such as formaldehyde, benzene, toluene, ethylbenzene and/or xylene from air. Also disclosed are transgenic seeds for growing a transgenic plant having the recombinant DNA in its genome and exhibiting enhanced VOC removal from air. Also disclosed are methods for generating seed and plants based on the transgenic events. Also disclosed are microbes selected for during directed evolution to have enhanced VOC removal from air capabilities. Also disclosed are methods and compositions for generating plant-microbiome pairings for enhanced VOC removal from air.