Abstract: The present invention provides cell-targeting molecules comprising binding regions for cell-type specific targeting and Shiga toxin A Subunit effector regions for Shiga toxin effector functions, wherein the Shiga toxin effector regions are at and/or proximal to an amino-terminus of a polypeptide component of the cell targeted molecule, and optionally comprising a disrupted, furin-cleavage motif between the Shiga toxin effector region and the binding region. The cell-targeting molecules of the invention exhibit a more optimized cytotoxicity and/or improved, in vivo tolerability as compared to related molecules comprising less amino-terminus proximal, Shiga toxin effector regions and/or furin-cleavage sensitive, wild-type, Shiga toxin effector regions. The cell targeting molecules of the invention have uses, such as, e.g.

Abstract: The present invention provides cytotoxic proteins comprising immunoglobulin-type binding regions for mediating cell-type specific targeting and Shiga toxin effector regions derived from A Subunits of members of the Shiga toxin family for effectuating cytotoxicity. The cytotoxic proteins have uses for selective killing of specific cell types and as therapeutics for the treatment of a variety of diseases, including cancers, immune disorders, and microbial infections.

Abstract: The present invention provides cell-targeting molecules which can deliver a CD8+ T-cell epitope cargo to the MHC class I presentation pathway of the cell. The cell-targeting molecules of the invention can be used to deliver virtually any CD8+ T-cell epitope from an extracellular space to the MHC class I pathway of a target cell, which may be a malignant cell and/or non-immune cell. The target cell can then display on a cell-surface the delivered CD8+ T-cell epitope complexed with MHC I molecule. The cell-targeting molecules of the invention have uses which include the targeted labeling and/or killing of specific cell-types within a mixture of cell-types, including within a chordate, as well as the stimulation of beneficial immune responses. The cell-targeting molecules of the invention have uses, e.g., in the treatment of a variety of diseases, disorders, and conditions, including cancers, tumors, growth abnormalities, immune disorders, and microbial infections.

Abstract: The present invention provides multivalent CD20-binding molecules, and compositions thereof, such as enriched compositions comprising large proportions of multivalent CD20-binding molecule relative to monovalent CD20-binding molecule. Certain multivalent CD20-binding molecules of the present invention comprise 1) two or more CD20 binding regions and 2) one or more Shiga toxin effector polypeptide regions derived from an A Subunit of a member of the Shiga toxin family. Certain multivalent CD20-binding molecules of the present invention, and compositions thereof, have uses for selective killing specific cell types and as therapeutics for the treatment of a variety of diseases, including cancers, tumors, and immune disorders.

Abstract: The present invention provides multivalent CD20-binding molecules, and compositions thereof, such as enriched compositions comprising large proportions of multivalent CD20-binding molecule relative to monovalent CD20-binding molecule. Certain multivalent CD20-binding molecules of the present invention comprise 1) two or more CD20 binding regions and 2) one or more Shiga toxin effector polypeptide regions derived from an A Subunit of a member of the Shiga toxin family. Certain multivalent CD20-binding molecules of the present invention, and compositions thereof, have uses for selective killing specific cell types and as therapeutics for the treatment of a variety of diseases, including cancers, tumors, and immune disorders.

Abstract: The present invention provides cell-targeting molecules which can deliver a CD8+ T-cell epitope cargo to the MHC class I presentation pathway of the cell. The cell-targeting molecules of the invention can be used to deliver virtually any CD8+ T-cell epitope from an extracellular space to the MHC class I pathway of a target cell, which may be a malignant cell and/or non-immune cell. The target cell can then display on a cell-surface the delivered CD8+ T-cell epitope complexed with MHC I molecule. The cell-targeting molecules of the invention have uses which include the targeted labeling and/or killing of specific cell-types within a mixture of cell-types, including within a chordate, as well as the stimulation of beneficial immune responses. The cell-targeting molecules of the invention have uses, e.g., in the treatment of a variety of diseases, disorders, and conditions, including cancers, tumors, growth abnormalities, immune disorders, and microbial infections.

Abstract: The present invention provides protease-cleavage resistant molecules comprising Shiga toxin effector polypeptides capable of exhibiting potent, Shiga toxin functions (e.g. subcellular routing and cytotoxicity). The present invention also provides protease-cleavage resistant, cell-targeting molecules for targeting specific cell types, e.g., infected or malignant cells. Certain molecules of the present invention are cytotoxic, and certain cell-targeting molecules of the present invention may be used for the targeted killing of specific cell types and the treatment of a variety of diseases, disorders, and conditions, including cancers, tumors, growth abnormalities, immune disorders, and microbial infections. Certain cell-targeting molecules of the invention exhibit improved, in vivo tolerability as compared to related cell-targeted molecules comprising protease-cleavage sensitive, wild-type, Shiga toxin effector polypeptides.

Abstract: The present invention provides proteins comprising binding regions for cell-type specific targeting, Shiga toxin effector regions derived from A Subunits of members of the Shiga toxin family for providing Shiga toxin effector functions (e.g. cellular internalization and cytotoxicity), and carboxy-terminal endoplasmic reticulum localization signal motifs. The presently disclosed proteins can comprise additional exogenous materials, such as, e.g., antigens, cytotoxic agents, and detection-promoting agents, and are capable of targeted delivery of these additional exogenous materials into the interiors of target cells. The proteins of the present invention have uses in methods such as, e.g., methods involving targeted killing of target cells, delivering exogenous materials into target cells, labeling subcellular compartments of target cells, and diagnosing and/or treating a variety of conditions including cancers, tumors, other growth abnormalities, immune disorders, and microbial infections.

Abstract: The present invention relates to methods of screening libraries of chimeric molecules comprising ribotoxic polypeptides, where screening is based on the interim reduction or elimination of ribotoxicity and the methods can identify cytotoxic molecules, each comprising a binding region and a ribotoxic region which jointly possess a desired assay-selectable characteristic, such as, e.g., binding to a target biomolecule, binding to a target cell, and/or cellular internalization.

Abstract: Disclosed herein is a delivery apparatus for delivering a self-expanding stent to a target position along the inside of a microcatheter, the delivery apparatus including an outer tube configured to communicate with the microcatheter, a shaft part configured to pass through the microcatheter while moving forwards and backwards in the outer tube and including a distal marker and a proximal marker to specify a position of the stent at the target position, and an elastic coating part formed on the outer surface of the shaft part between the distal marker and the proximal marker.

Abstract: The present invention provides cell-targeted molecules comprising binding regions for cell-type specific targeting and Shiga toxin A Subunit effector regions for Shiga toxin effector functions, wherein the Shiga toxin effector regions are at and/or proximal to an amino-terminus of a polypeptide component of the cell-targeted molecule, and optionally comprising a disrupted, furin-cleavage motif between the Shiga toxin effector region and the binding region. The cell-targeted molecules of the invention exhibit a more optimized cytotoxicity and/or improved, in vivo tolerability as compared to related molecules comprising less amino-terminus proximal, Shiga toxin effector regions and/or furin-cleavage sensitive, wild-type, Shiga toxin effector regions. The cell-targeted molecules of the invention have uses, such as, e.g.

Abstract: Systems, methods, and computer programs are disclosed for performing runtime auto-parallelization of application code. One embodiment of such a method comprises receiving application code to be executed in a multi-processor system. The application code comprises an injected code cost computation expression for at least one loop in the application code defining a serial workload for processing the loop. A runtime profitability check of the loop is performed based on the injected code cost computation expression to determine whether the serial workload can be profitably parallelized. If the serial workload can be profitably parallelized, the loop is executed in parallel using two or more processors in the multi-processor system.

Abstract: A shipment coordination service, which may be a company or a business, coordinates shipment of a package between an origin and a destination using one or more carriers. The shipment coordination service may have one or more processing centers associated with it for processing packages. The shipment coordination service can use an origin carrier to deliver the package from an origin to an origin processing center, and a destination carrier can deliver the package from a destination processing center or another intermediate location to the destination. The shipment coordination service may also use an intermediate carrier to deliver the package from one processing center to another processing center or to another intermediate location.

Abstract: The present invention provides cytotoxic proteins comprising immunoglobulin-type binding regions for mediating cell-type specific targeting and Shiga toxin effector regions derived from A Subunits of members of the Shiga toxin family for effectuating cytotoxicity. The cytotoxic proteins have uses for selective killing of specific cell types and as therapeutics for the treatment of a variety of diseases, including cancers, immune disorders, and microbial infections.

Abstract: The present invention provides CD20-binding proteins that bind to and rapidly internalize CD20 antigens from a cell surface location to the interior of a cell. CD20-binding proteins of the invention comprise a CD20 binding region and a Shiga toxin effector region. Certain of the disclosed CD20-binding proteins kill cells that express CD20 on their surface. Further, the presently disclosed CD20-binding proteins can comprise additional exogenous materials and are capable of targeted delivery of these additional exogenous materials into the interior of CD20 expressing cells. Such additional materials may include peptides, antigens, enzymes, and polynucleotides. These CD20-binding proteins have uses in methods of internalizing themselves, targeted killing of CD20 expressing cells, delivering exogenous materials into CD20 expressing cells, and treating a variety of diseases involving CD20 expressing cells, such as cancers and immune disorders.

Abstract: A shipment coordination service, which may be a company or a business, coordinates shipment of a package between an origin and a destination using one or more carriers. The shipment coordination service may have one or more processing centers associated with it for processing packages. The shipment coordination service can use an origin carrier to deliver the package from an origin to an origin processing center, and a destination carrier can deliver the package from a destination processing center or another intermediate location to the destination. The shipment coordination service may also use an intermediate carrier to deliver the package from one processing center to another processing center or to another intermediate location.

Abstract: The present invention provides CD20-binding proteins that bind to and rapidly internalize in a CD20-mediated fashion from a cell surface location to the interior of the cell. CD20-binding proteins of the invention comprise a CD20 binding region and a Shiga toxin effector region. Certain of the disclosed CD20-binding proteins kill cells that express CD20 on their surface. Further, the presently disclosed CD20-binding proteins can comprise additional exogenous materials, such as, e.g., antigens, and are capable of targeted delivery of these additional exogenous materials into the interior of CD20 expressing cells. These CD20-binding proteins have uses in methods such as, e.g.

Abstract: In some embodiments, a notebook including a content source (e.g., a DVD or other display data source), mass storage device (e.g., hard disk drive), auxiliary display subsystem (including an auxiliary processor), PC chipset, a multiplexer between the content source, auxiliary processor, and PC chipset, and another multiplexer between the mass storage device, auxiliary processor and PC chipset, and methods implemented thereby. The auxiliary display subsystem can be operable (without communicating with the notebook's CPU) when the notebook is in a low-power state.

Abstract: Methods, apparatuses and systems directed to facilitating WLAN diagnostics and management using traffic stream metrics. In a data collection stage, according to one implementation of the present invention, localized uplink measurements are taken at a wireless client associated with a wireless access point. During periodic intervals (e.g., every 5 seconds), the wireless client, in one implementation, transmits uplink measurement information to the wireless access point. The wireless access point may also take downlink measurements, which may also include one or more of the following metrics: observed latency, queuing delay, packet loss rate, and packet count information. The wireless access point, in one implementation, may aggregate and report the uplink and downlink metric information to a network management system.

Abstract: The presently disclosed subject matter provides hybrid nanomaterials for use as magnetic resonance imaging (MRI), optical and/or multimodal contrast imaging agents. The hybrid nanomaterials comprise a polymeric matrix material and a plurality of coordination complexes, each coordination complex comprising a functionalized chelating group and a paramagnetic metal ion. The nanoparticle can further comprise a luminophore. Methods of synthesizing and using the nanoparticles are provided. The nanoparticles can be used to diagnose diseases, including cancer, cardiovascular disease, and diseases related to inflammation.