Methods of producing a single-domain antibody (sdAb) include causing a bacteria to express the sdAb into cytoplasm of the bacteria, wherein the sdAb is expressed as a fusion protein with the acid tail of -synuclein; and then purifying the sdAb, wherein the fusion protein is expressed free of a periplasmic location tag. Such antibodies have the unexpected ability to refold after thermal denaturation.

Methods of producing a single-domain antibody (sdAb) include causing a bacteria to express the sdAb into cytoplasm of the bacteria, wherein the sdAb is expressed as a fusion protein with the acid tail of -synuclein; and then purifying the sdAb, wherein the fusion protein is expressed free of a periplasmic location tag. Such antibodies have the unexpected ability to refold after thermal denaturation.

Various embodiments are directed to transgenic plants, including transgenic tobacco plants and derivative seeds, genetically modified to impede the transport of Cadmium (Cd) from the root system to aerial portions of transgenic plants by reducing the expression levels of HMA-related transporters. Various embodiments are directed to transgenic tobacco plants genetically modified to stably express a RNAi construct encoding RNAi polynucleotides that enable the degradation of endogenous NtHMA RNA variants. Reduced expression of NtHMA transporters in transgenic plants results in substantially reduced content of Cadmium (Cd) in the leaf lamina. Various consumable products that are substantially free or substantially reduced in Cd content can be produced by incorporating leaves derived from transgenic tobacco plants modified to reduce the expression of NtHMA transporters.

Various embodiments are directed to transgenic plants, including transgenic tobacco plants and derivative seeds, genetically modified to impede the transport of Cadmium (Cd) from the root system to aerial portions of transgenic plants by reducing the expression levels of HMA-related transporters. Various embodiments are directed to transgenic tobacco plants genetically modified to stably express a RNAi construct encoding RNAi polynucleotides that enable the degradation of endogenous NtHMA RNA variants. Reduced expression of NtHMA transporters in transgenic plants results in substantially reduced content of Cadmium (Cd) in the leaf lamina. Various consumable products that are substantially free or substantially reduced in Cd content can be produced by incorporating leaves derived from transgenic tobacco plants modified to reduce the expression of NtHMA transporters.

Described is the specific delivery of agrochemicals to plants. More specifically, a targeting agent has at least one binding domain that specifically binds to a binding site on an intact living plant. Such binding domains include a peptide having 4 framework regions and 3 complementary determining regions, or fragment(s) thereof, wherein the binding domains bind or retain a carrier onto a plant. Described are binding domains that specifically bind trichomes, stomata, cuticle, lenticels, thorns, spines, root hairs, or wax layer. Further described are methods for delivering agrochemicals to a plant, for depositing agrochemicals on a plant, and for retaining the agrochemicals on a plant, using targeting agents comprising the binding domains, and to methods for protecting a plant against stress or controlling plant growth. Also, described are methods for manufacturing a specifically targeting agrochemical carrier.

Described is the specific delivery of agrochemicals to plants. More specifically, a targeting agent has at least one binding domain that specifically binds to a binding site on an intact living plant. Such binding domains include a peptide having 4 framework regions and 3 complementary determining regions, or fragment(s) thereof, wherein the binding domains bind or retain a carrier onto a plant. Described are binding domains that specifically bind trichomes, stomata, cuticle, lenticels, thorns, spines, root hairs, or wax layer. Further described are methods for delivering agrochemicals to a plant, for depositing agrochemicals on a plant, and for retaining the agrochemicals on a plant, using targeting agents comprising the binding domains, and to methods for protecting a plant against stress or controlling plant growth. Also, described are methods for manufacturing a specifically targeting agrochemical carrier.

The invention provides chiral haptens ()-3-AmNic and ()-N4N for use in generating antibodies in a patient specific for ()-nicotine. The haptens can be conjugated to suitable carrier proteins and administered as an antigenic mixture, optionally comprising adjuvant(s), to a patient suffering from nicotine or tobacco addiction or habituation.

The invention provides chiral haptens ()-3-AmNic and ()-N4N for use in generating antibodies in a patient specific for ()-nicotine. The haptens can be conjugated to suitable carrier proteins and administered as an antigenic mixture, optionally comprising adjuvant(s), to a patient suffering from nicotine or tobacco addiction or habituation.

The present invention is in the field of plant breeding and aphid resistance. More specifically, the invention includes a method for breeding soybean plants containing quantitative trait loci that are associated with resistance to aphids, Aphis glycines. The invention further includes method for monitoring the introgression quantitative trait loci (QTL) conferring aphid resistance into elite germplasm in a breeding program.

The present invention is in the field of plant breeding and aphid resistance. More specifically, the invention includes a method for breeding soybean plants containing quantitative trait loci that are associated with resistance to aphids, Aphis glycines. The invention further includes method for monitoring the introgression quantitative trait loci (QTL) conferring aphid resistance into elite germplasm in a breeding program.