Bioactive priming polypeptides are provided that are useful when applied to plants in agricultural formulations. Methods of using the formulations containing the bioactive priming polypeptides are also provided which are applied exogenously to the surface of a plant or a plant cell membrane or endogenously to the interior of a plant or to a plant cell. The bioactive priming polypeptides when applied to a plant, a plant part, or a plant growth medium or a rhizosphere in an area surrounding the plant or the plant part increase growth, yield, health, longevity, productivity, and/or vigor of a plant or a plant part and/or decrease abiotic stress in the plant or the plant part and/or protect the plant or the plant part from disease, insects and/or nematodes, and/or increase the innate immune response of the plant or the plant part and/or change plant architecture.

Disclosed are hypersensitive-response eliciting peptides that exhibit improved solubility, stability, resistance to chemical degradation, or a combination of these properties. Use of these peptides or fusion polypeptides, or DNA constructs encoding the same, for modulating plant biochemical signaling, imparting disease resistance to plants, enhancing plant growth, imparting tolerance to biotic stress, imparting tolerance and resistance to abiotic stress, imparting desiccation resistance to cuttings removed from ornamental plants, imparting post-harvest disease or post-harvest desiccation resistance to a fruit or vegetable, or enhancing the longevity of fruit or vegetable ripeness are also disclosed.

Disclosed are hypersensitive-response eliciting peptides that exhibit improved solubility, stability, resistance to chemical degradation, or a combination of these properties. Use of these peptides or fusion polypeptides, or DNA constructs encoding the same, for modulating plant biochemical signaling, imparting disease resistance to plants, enhancing plant growth, imparting tolerance to biotic stress, imparting tolerance and resistance to abiotic stress, imparting desiccation resistance to cuttings removed from ornamental plants, imparting post-harvest disease or post-harvest desiccation resistance to a fruit or vegetable, or enhancing the longevity of fruit or vegetable ripeness are also disclosed.

Disclosed are hypersensitive-response eliciting peptides that exhibit improved solubility, stability, resistance to chemical degradation, or a combination of these properties. Use of these peptides or fusion polypeptides, or DNA constructs encoding the same, for modulating plant biochemical signaling, imparting disease resistance to plants, enhancing plant growth, imparting tolerance to biotic stress, imparting tolerance and resistance to abiotic stress, imparting desiccation resistance to cuttings removed from ornamental plants, imparting post-harvest disease or post-harvest desiccation resistance to a fruit or vegetable, or enhancing the longevity of fruit or vegetable ripeness are also disclosed.

Compositions are provided that contain biologically active components of amniotic fluid including growth factors and other proteins, carbohydrates, lipids, and metabolites. The compositions containing biologically active components of amniotic fluid can be useful for a range of therapeutic treatments including joint and soft tissue repair, regulation of skin condition, and for use in organ preservation, such as for use in organ transplant procedures. Advantages of the compositions include that they can be reproducibly produced, without the inherent variability of amniotic fluid from individual donors, and that they are free of fetal waste.

Compositions are provided that contain biologically active components of amniotic fluid including growth factors and other proteins, carbohydrates, lipids, and metabolites. The compositions containing biologically active components of amniotic fluid can be useful for a range of therapeutic treatments including joint and soft tissue repair, regulation of skin condition, and for use in organ preservation, such as for use in organ transplant procedures. Advantages of the compositions include that they can be reproducibly produced, without the inherent variability of amniotic fluid from individual donors, and that they are free of fetal waste.

Compositions are provided that contain biologically active components of amniotic fluid including growth factors and other proteins, carbohydrates, lipids, and metabolites. The compositions containing biologically active components of amniotic fluid can be useful for a range of therapeutic treatments including joint and soft tissue repair, regulation of skin condition, and for use in organ preservation, such as for use in organ transplant procedures. Advantages of the compositions include that they can be reproducibly produced, without the inherent variability of amniotic fluid from individual donors, and that they are free of fetal waste.

The control of green macroalgae blooms. More particularly, Ulva algae blooms may be controlled by a living active principle contained in seawater from the Mediterranean Sea. The inventors have observed that seawater from the Mediterranean Sea collected in particular spots (collected at, e.g., latitude 43° 14′N and longitude 5° 21′E, or at latitude 43° 09′N and longitude 5° 36′E) is capable of promoting the death of Ulva lactuca, without the emission of toxic acidic vapors, such as, e.g., H.sub.2S vapors. Altogether, the inventors provide data showing that this seawater comprises an alive microorganism that is responsible for promoting the death of Ulva, in particular of Ulva lactuca. More precisely, the inventors provide experimental data showing that the microorganism that promotes the death of Ulva lactuca, and hence promotes the control of Ulva lactuca blooms, is a virus.

Methods and systems for killing, preventing, or inhibiting the growth and spread of invasive Dreissenid mussel species, such as Zebra mussels (Dreissena polymorpha) and Quagga mussels (Dreissena rostriformis bugensis) are provided herein. The treatment methods and systems utilize a nonnative source of chlorophyll introduced to a body of water to increase the chlorophyll concentrations in bodies of water. The increased chlorophyll concentration effectively kills or prevents the spreading of the invasive mussel species in the bodies of water. The methods and systems of the present invention advantageously avoid the use of heavy metals or pesticides that may pose health risks to humans. Additionally, embodiments of the present invention can use treatment doses that are nonharmful to other aquatic life.

Methods and systems for killing, preventing, or inhibiting the growth and spread of invasive Dreissenid mussel species, such as Zebra mussels (Dreissena polymorpha) and Quagga mussels (Dreissena rostriformis bugensis) are provided herein. The treatment methods and systems utilize a nonnative source of chlorophyll introduced to a body of water to increase the chlorophyll concentrations in bodies of water. The increased chlorophyll concentration effectively kills or prevents the spreading of the invasive mussel species in the bodies of water. The methods and systems of the present invention advantageously avoid the use of heavy metals or pesticides that may pose health risks to humans. Additionally, embodiments of the present invention can use treatment doses that are nonharmful to other aquatic life.