Abstract: A method for extracting proteins from the intercellular space of plants is provided. The method is applicable to the large scale isolation of many active proteins of interest synthesized by plant cells. The method may be used commercially to recover recombinantly produced proteins from plant hosts thereby making the large scale use of plants as sources for recombinant protein production feasible.

Abstract: The invention relates to ?-galactosidase truncated at the carboxy terminus and the production of enzymatically active recombinant human and animal lysosomal enzymes involving construction and expression of recombinant expression constructs comprising coding sequences of human or animal lysosomal enzymes in a plant expression system. The plant expression system provides for post-translational modification and processing to produce a recombinant gene product exhibiting enzymatic activity. The invention is demonstrated by working examples in which transgenic tobacco plants express recombinant expression constructs comprising human glucocerebrosidase nucleotide sequences. The invention is also demonstrated by working examples in which transfected tobacco plants express recombinant viral expression constructs comprising human ? galactosidase nucleotide sequences.

Abstract: A mass spectrometry apparatus uses image processing of output signals of a camera in a mass spectrometer to provide feedback for directing the laser. The present invention provides for the determination of where samples have actually been deposited on a plate, and for the selection of different points for each sample, based on its structure, at which to aim a laser, during the cycle period of the mass spectrometer. Such feedback information increases the likelihood that the laser impinges samples and provides useful data.

Abstract: The present invention relates to recombinant viral vectors encoding a transcriptional unit, that encodes a fusion protein, or a foreign protein or a gene of interest to be silenced, which can be expressed in a host. The present invention also relates to the use of these recombinant viral vectors to express a fusion protein, a foreign protein, to silence a gene of interest in a host. The present invention also relates to the use of these recombinant viral vectors to screen a CDNA or genomic library in order to correlate a nucleotide sequence with a phenotypic or biochemical change.

Abstract: An apparatus for expressing and unloading an isoelectric focusing gel from an electrophoresis gel tube includes a first support for supporting the gel tube, a plunger rod and a second support for supporting the plunger rod. The first support is mounted on a movable carriage and is moved toward the second support so that the gel tube slides onto the plunger rod to unload the gel from the gel tube. A plurality of gel tubes can be mounted in a rack and the rack coupled to the first support. The first support preferably includes a plurality of openings oriented with the gel tubes for guiding a respective plunger rod through the axial passage of the gel tubes. In preferred embodiments, the second support supporting the plunger rods is substantially stationary while the first support moves toward the second support so that the gel tubes slide onto the plunger rods.

Abstract: An automated assembly for performing first dimension electrophoresis is described herein that includes a supply magazine, an electrophoresis tank and an automated transferring device that robotically transfers biological samples from sample vials retained in the supply magazine, and delivers the biological samples one by one to tube gels supported in a rack within the electrophoresis tank. The transferring device is configured to move in three dimensions with respect to the supply magazine and the rack for flexible sample delivery.

Abstract: Devices and methods for removing portions of gradients relate to a float with an upper concave surface for collecting the gradient portion.

Abstract: An automated pipetting apparatus and method for forming sample spots on a support include a pipette. A robotic assembly moves a sample container, such as a multiwell microtiter plate, and the support to the pipette for receiving and dispensing liquid samples. The pipette draws a predetermined volume of the liquid sample from the sample container into the axial passage of the pipette and forms a pocket of a gaseous material above and forms a barrier material below the volume of the liquid sample. The liquid sample is drawn into the pipette a distance sufficient to form a space between the liquid sample and the outlet of the pipette and to contain the liquid sample completely within the pipette.

Abstract: The invention provides novel genetic constructions for the expression of inhibitory RNA in the cytoplasm of eukaryotic cells. The inhibitory RNA may be an anti-sense RNA or a co-suppressor RNA, and functions to reduce the expression of a gene of interest in the target cell. The genetic constructions of the invention are capable of replicating in the cytoplasm of a eukaryotic cell and comprise a promoter region in functional combination with an encoding polynucleotide. The genetic constructions may be designed so as to replicate in the cytoplasm of plant cells, yeast cells, and mammalian cells. When the eukaryotic cell of interest is a plant cell, the genetic construction is preferably derived from a plant RNA virus. Plant RNA virus derived genetic constructions may employ a plant virus subgenomic promoter, including subgenomic promoters from tobamoviruses in functional combination with the RNA encoding region.

Abstract: The microarrays of the present invention are prepared by using a separate fiber for each compound being used in the microarray. The fibers are bundled and sectioned to form a thin microarray that is glued to a backing.

Abstract: Ways for reproducibly making liquid gradients with a high degree of precision are provided. Different regions in the gradient are preformed by premixing liquids usable for other components of the gradient to form an intermediate gradient component that is then added to the vessel. The system is particularly adapted for making non-linear and multiple overlapping different gradients in the same liquid in the same vessel.

Abstract: The present invention provides nucleic acid sequences having an altered viral movement protein and 126/183 kDa replicase proteins further characterized in its ability to stabilize a transgene contained in a virus that expresses the altered movement protein. The present invention also provides viral vectors expressing the altered movement protein, cells transformed with the vectors, and host plants infected by the viral vectors.

Abstract: An automated high-throughput system for excising spots or samples from an electrophoresis slab gel includes a computer controlled robotic arm assembly and a sample plate handling assembly for supplying a sample plate to a loading station. The computer is connected to a scanner and imaging device to identify selected sample locations on the slab gel and to direct the robotic arm to the selected locations for excising the gel spots. The cutting assembly includes a removable tray for supporting the slab gel during the cutting process and is coupled to the automated sample plate handling assembly. The sample plate handling assembly delivers a multiwell plate to the cutting assembly for receiving the gel spots. The removable tray cooperates with a scanner for identifying protein spots and includes a positioning device to position the tray in the scanner and the cutting assembly in selected locations to coordinate the scanned image with the cutting process.

Abstract: A method and apparatus for extracting, identifying, and manipulating proteins or peptides from a solution uses paramagnetic beads having a coating with an affinity for the target component. In one embodiment, paramagnetic beads coated with C18 are used to adsorb proteins and peptides. The beads can be used to purify, immobilize and assay antibodies. By cycling the beads, many times greater molar amount of binding partner may be separated from a solution. A magnetic probe is used to capture the beads and transfer the beads to selected processing stages.

Abstract: A float is used for preparing a density gradient in a parallel-walled vessel. The float has an outer peripheral surface that has a diameter smaller than an inner diameter of an inner surface of the vessel. With the float placed inside the vessel a liquid is introduced onto the float such that the liquid flows around the float between the float and the inner wall of the vessel. The shape and configuration of the float slows the velocity of the liquid such that there is only laminar flow as the liquid contacts other liquid below the float. Elimination of turbulent flow prevents mixing of different liquid introduced into the same vessel thereby forming layers of fluid. Preferably, the vessel is a centrifuge tube. In one embodiment, the outer diameter of the float is large enough to cause capillary action between the float and the inner surface of the centrifuge tube to force liquid to remain between the float and the inner surface of the centrifuge tube.

Abstract: The present invention provides an integrated, fully automated, high-throughput system for two-dimensional electrophoresis comprised of gel-making machines, gel processing machines, gel compositions and geometries, gel handling systems, sample preparation systems, software and methods. The system is capable of continuous operation at high-throughput to allow construction of large quantitative data sets.

Abstract: The present invention provides an integrated, fully automated, high-throughput system for two-dimensional electrophoresis comprised of gel-making machines, gel processing machines, gel compositions and geometries, gel handling systems, sample preparation systems, software and methods. The system is capable of continuous operation at high-throughput to allow construction of large quantitative data sets.

Abstract: The present invention provides an integrated, fully automated, high-throughput system for two-dimensional electrophoresis comprised of gel-making machines, gel processing machines, gel compositions and geometries, gel handling systems, sample preparation systems, software and methods. The system is capable of continuous operation at high-throughput to allow construction of large quantitative data sets.

Abstract: The present invention provides an integrated, fully automated, high-throughput system for two-dimensional electrophoresis comprised of gel-making machines, gel processing machines, gel compositions and geometries, gel handling systems, sample preparation systems, software and methods. The system is capable of continuous operation at high-throughput to allow construction of large quantitative data sets.