Abstract: A method for producing leafy biomass from undifferentiated plant cells, the method comprising providing undifferentiated plant cells, contacting them with an agent that promotes differentiation of the cells into leafy tissue and growing the cells in a temporary liquid immersion culture system. This method of the invention may be used to produce polypeptides, and natural medicinal products, and can be used to capture carbon dioxide. A method of producing a polypeptide in plant cells in vitro comprising: providing undifferentiated plant cells containing chloroplasts that carry a transgenic nucleic acid molecule encoding the polypeptide, wherein the plant cells display homoplastomy; and propagating the cells according to the above method to produce leafy biomass containing the polypeptide.

Abstract: Disclosed herein are nucleic acid molecules isolated from coffee (Coffea spp.) comprising sequences that encodes various sucrose metabolizing enzymes, along with their encoded proteins. Specifically, sucrose synthase, sucrose phosphate synthase and sucrose phosphatase enzymes and their encoding polynucleotides from coffee are disclosed. Also disclosed are methods for using these polynucleotides for gene regulation and manipulation of the sugar profile of coffee plants, to influence flavor, aroma, and other features of coffee beans.

Abstract: Disclosed are isolated nucleic acids for modulating coffee maturation. Also disclosed are promoters derived from such genes. Methods for using the nucleic acids for improving quality attributes of coffee are provided. Also provided are methods for assessing the quality of plant-based agricultural products, such as coffee.

Abstract: Dehydrin- and late embryogenic abundant (LEA) protein-encoding polynucleotides from coffee plants are disclosed. Also disclosed are a promoter sequence from a coffee dehydrin gene, and methods for using these polynucleotides and promoter sequences for gene regulation and manipulation of flavor, aroma, stress tolerance and other features of coffee beans.

Abstract: Disclosed herein are nucleic acid molecules isolated from coffee (Coffea spp.) comprising sequences that encode UDP-glucose pyrophosphorylase (UGPP), GDP-mannose pyrophosphorylase (GMPP), phosphomannomutase (PMM), and UDP-glucose 4-epimerase (UGE). Also disclosed are methods for using these polynucleotides for gene regulation and manipulation of the content and/or structure of coffee grains, to influence extraction characteristics and other features.

Abstract: Polynucleotides and polypeptides involved in the biosynthetic pathway of chlorogenic acids in the coffee plant are disclosed. Also disclosed are methods for using these polynucleotides and polypeptides for the manipulation of flavor, aroma, and other features of coffee beans, as well as for the protection of coffee plants against diseases or oxidative stress.

Abstract: A method for producing leafy biomass from undifferentiated plant cells, the method comprising providing undifferentiated plant cells, contacting them with an agent that promotes differentiation of the cells into leafy tissue and growing the cells in a temporary liquid immersion culture system. This method of the invention may be used to produce polypeptides, and natural medicinal products, and can be used to capture carbon dioxide. A method of producing a polypeptide in plant cells in vitro comprising: providing undifferentiated plant cells containing chloroplasts that carry a transgenic nucleic acid molecule encoding the polypeptide, wherein the plant cells display homoplastomy; and propagating the cells according to the above method to produce leafy biomass containing the polypeptide.

Abstract: Polynucleotides encoding polypeptides that comprise the biosynthetic pathway for phenylpropanoids and flavonoids in the coffee plant are disclosed. Also disclosed are methods for using these polynucleotides and polypeptides for the manipulation of flavor, aroma, and other features of coffee beans, as well as the manipulation resistance to pathogen, herbivore, and insect attack in the coffee plant.

Abstract: Disclosed herein are nucleic acid molecules isolated from coffee (Coffea spp.) comprising sequences that encodes various sucrose metabolizing enzymes, along with their encoded proteins. Specifically, three types of invertase and four invertase inhibitors and their encoding polynucleotides from coffee are disclosed. Also disclosed are methods for using these polynucleotides for gene regulation and manipulation of the sugar profile of coffee plants, to influence flavor, aroma, and other features of coffee beans.

Abstract: Polynucleotides encoding polypeptides that comprise the biosynthetic pathway for carotenoids and apocarotenoids in the coffee plant are disclosed. Also disclosed are a promoter sequence from a coffee carotenoid gene, and methods for using these polynucleotides, polypeptides, and promoter sequences for gene regulation and the manipulation of flavor, aroma, and other features of coffee beans, as well as the manipulation of photosynthesis in the coffee plant.

Abstract: Disclosed herein are nucleic acid molecules isolated from coffee (Coffea spp.) comprising sequences that encode mannan synthase or galactomannan galactosyltransferase. Also disclosed are methods for using these polynucleotides for gene regulation and manipulation of the polysaccharide molecules of coffee plants, to influence extraction characteristics and other features of coffee beans.

Abstract: Polynucleotides encoding polypeptides that comprise the biosynthetic pathway for lignins in the coffee plant are disclosed. Also disclosed are methods for using these polynucleotides and polypeptides for the manipulation of flavor, aroma, and other features of coffee beans, as well as the manipulation resistance to pathogen, herbivore, and insect attack in the coffee plant.

Abstract: Disclosed herein are nucleic acid molecules isolated from coffee (Coffea spp.) comprising sequences that encodes various sucrose metabolizing enzymes, along with their encoded proteins. Specifically, sucrose synthase, sucrose phosphate synthase and sucrose phosphatase enzymes and their encoding polynucleotides from coffee are disclosed. Also disclosed are methods for using these polynucleotides for gene regulation and manipulation of the sugar profile of coffee plants, to influence flavor, aroma, and other features of coffee beans.

Abstract: Disclosed are isolated nucleic acids for modulating coffee maturation. Also disclosed are promoters derived from such genes. Methods for using the nucleic acids for improving quality attributes of coffee are provided. Also provided are methods for assessing the quality of plant-based agricultural products, such as coffee.

Abstract: Disclosed herein are nucleic acid molecules isolated from coffee (Coffea spp.) comprising sequences that encodes various sucrose metabolizing enzymes, along with their encoded proteins. Specifically, sucrose synthase, sucrose phosphate synthase and sucrose phosphatase enzymes and their encoding polynucleotides from coffee are disclosed. Also disclosed are methods for using these polynucleotides for gene regulation and manipulation of the sugar profile of coffee plants, to influence flavor, aroma, and other features of coffee beans.

Abstract: Oleosin- and steroleosin-encoding polynucleotides from coffee plants are disclosed. Also disclosed are promoter sequences from coffee oleosin genes, and methods for using these polynucleotides and promoters for gene regulation and manipulation of flavor, aroma and other features of coffee beans.

Abstract: Disclosed herein are nucleic acid molecules isolated from coffee (Coffea spp.) comprising sequences that encodes various sucrose metabolizing enzymes, along with their encoded proteins. Specifically, three types of invertase and four invertase inhibitors and their encoding polynucleotides from coffee are disclosed. Also disclosed are methods for using these polynucleotides for gene regulation and manipulation of the sugar profile of coffee plants, to influence flavor, aroma, and other features of coffee beans.

Abstract: Dehydrin- and late embryogenic abundant (LEA) protein-encoding polynucleotides from coffee plants are disclosed. Also disclosed are a promoter sequence from a coffee dehydrin gene, and methods for using these polynucleotides and promoter sequences for gene regulation and manipulation of flavor, aroma, stress tolerance and other features of coffee beans.

Abstract: Disclosed herein are nucleic acid molecules isolated from coffee (Coffea spp.) comprising sequences that encode mannan synthase or galactomannan galactosyltransferase. Also disclosed are methods for using these polynucleotides for gene regulation and manipulation of the polysaccharide molecules of coffee plants, to influence extraction characteristics and other features of coffee beans.

Abstract: Polynucleotides encoding polypeptides that comprise the biosynthetic pathway for phenylpropanoids and flavonoids in the coffee plant are disclosed. Also disclosed are methods for using these polynucleotides and polypeptides for the manipulation of flavor, aroma, and other features of coffee beans, as well as the manipulation resistance to pathogen, herbivore, and insect attack in the coffee plant.