Abstract: A device for holding a placard includes a backplate that is engaged with a rail structure and a retention panel that is engaged with the backplate and configured to receive a placard, the retention panel and the backplate being movable between a first position adjacent an end of the rail structure and a second position that is spaced apart from the end of the rail structure. The rail structure includes a first rail and a second rail extending parallel with one another in a first direction.

Abstract: Systems and methods for generating shared accounts and performing shared account transactions include a computing system which receives a request from a first user device of a first user to form a shared account accessible by a second user based on one or more rules, generates the shared account, links a first account with the shared account, identifies the second user, transmits a notification to a second user device of the second user indicating the second user has access to the shared account, receives an input to the second user device indicating acceptance of access to the shared account, links a second account with the shared account, receives a second input to the second user device indicating a selection to initiate an outbound transfer of resources and a category, determines that the category meets at least one rule, and initiates the outbound transfer of resources from the shared account.

Abstract: A method of reducing a future amount of electronic fraud alerts includes receiving data detailing a financial transaction, inputting the data into a rules-based engine that generates an electronic fraud alert, transmitting the alert to a mobile device of a customer, and receiving from the mobile device customer feedback indicating that the alert was a false positive or otherwise erroneous. The method also includes inputting the data detailing the financial transaction into a machine learning program trained to (i) determine a reason why the false positive was generated, and (ii) then modify the rules-based engine to account for the reason why the false positive was generated, and to no longer generate electronic fraud alerts based upon (a) fact patterns similar to fact patterns of the financial transaction, or (b) data similar to the data detailing the financial transaction, to facilitate reducing an amount of future false positive fraud alerts.

Abstract: In at least one embodiment, a system for a re-entry tool to be used with oilfield equipment is disclosed. A stinger that includes flushing holes to enable fluid for flushing through the re-entry tool and into one or more of an Xmas tree head, tubing hanger, or crown plug, is provided in the system. The system includes one or more sleeves external to the stringer. The one or more sleeves include flushing slots to enable circulation of the fluid from the Xmas tree head, tubing hanger, or crown plug to an external environment relative to the Xmas tree head.

Abstract: A provider computing system includes one or more processing circuits including one or more processors coupled to one or more memory devices having instructions stored thereon that, when executed by the one or more processors, cause the one or more processors to determine a user track for a user based on one or more of a user track selection received from a user device associated with the user or user information of the user. The instructions further cause the one or more processors to identify one or more features to provide to the user based on the user track. The instructions further cause the one or more processors to generate a user interface corresponding to the user track, the user interface including the one or more features. The instructions further cause the one or more processors to cause the user interface to be displayed to the user.

Abstract: Described herein are variants of alpha-hemolysin having at least one amino acid substitution at H35G, E111N, M113A, and/or K147N in the mature, wild-type alpha-hemolysin amino acid sequence. In certain examples, the variant may have a substitution at E111S, M113S, T145S, K147S, or L135I in the mature alpha-hemolysin amino acid sequence. The ?-hemolysin variants may also include a substitution at H144A and/or a series of glycine residues spanning residues 127 to 131 of the mature, wild-type alpha hemolysin. Also provided are nanopore assemblies including the alpha-hemolysin variants, the assembly having an increased nanopore lifetime. Further, provided are variants that, in addition to providing increased lifetime, provide a decreased time-to-thread. Hence, the variants provided herein both increase nanopore lifetime and improve efficiency and accuracy of DNA sequencing reactions using nanopores comprising the variants.

Abstract: Described herein are variants of alpha-hemolysin having at least one amino acid substitution at H35G, E111N, M113A, and/or K147N in the mature, wild-type alpha-hemolysin amino acid sequence. In certain examples, the variant may have a substitution at E111S, M113S, T145S, K147S, or L135I in the mature alpha-hemolysin amino acid sequence. The ?-hemolysin variants may also include a substitution at H144A and/or a series of glycine residues spanning residues 127 to 131 of the mature, wild-type alpha hemolysin. Also provided are nanopore assemblies including the alpha-hemolysin variants, the assembly having an increased nanopore lifetime. Further, provided are variants that, in addition to providing increased lifetime, provide a decreased time-to-thread. Hence, the variants provided herein both increase nanopore lifetime and improve efficiency and accuracy of DNA sequencing reactions using nanopores comprising the variants.

Abstract: Described herein are variants of alpha-hemolysin having at least one amino acid substitution at H35G, E111N, M113A, and/or K147N in the mature, wild-type alpha-hemolysin amino acid sequence. In certain examples, the variant may have a substitution at E111S, M113S, T145S, K147S, or L135I in the mature alpha-hemolysin amino acid sequence. The ?-hemolysin variants may also include a substitution at H144A and/or a series of glycine residues spanning residues 127 to 131 of the mature, wild-type alpha hemolysin. Also provided are nanopore assemblies including the alpha-hemolysin variants, the assembly having an increased nanopore lifetime. Further, provided are variants that, in addition to providing increased lifetime, provide a decreased time-to-thread. Hence, the variants provided herein both increase nanopore lifetime and improve efficiency and accuracy of DNA sequencing reactions using nanopores comprising the variants.

Abstract: Described herein are variants of alpha-hemolysin having at least one amino acid substitution at H35G, E111N, M113A, and/or K147N in the mature, wild-type alpha-hemolysin amino acid sequence. In certain examples, the variant may have a substitution at E111S, M113S, T145S, K147S, or L135I in the mature alpha-hemolysin amino acid sequence. The ?-hemolysin variants may also include a substitution at H144A and/or a series of glycine residues spanning residues 127 to 131 of the mature, wild-type alpha hemolysin. Also provided are nanopore assemblies including the alpha-hemolysin variants, the assembly having an increased nanopore lifetime. Further, provided are variants that, in addition to providing increased lifetime, provide a decreased time-to-thread. Hence, the variants provided herein both increase nanopore lifetime and improve efficiency and accuracy of DNA sequencing reactions using nanopores comprising the variants.

Abstract: A method for designing the cross-sectional shape of the fuselage of a flying body having the fuselage extending in the roll axial direction, the section being taken on a plane perpendicular to the roll axial direction. This method is provided with: an initial setting step S12 for setting an initial cross-sectional shape, which is the initial cross-sectional shape of the fuselage having a cross-sectional shape that is not truly circular; load application steps S14, S21, S28 for analytically or experimentally preloading the fuselage having the initial cross-sectional shape; and a design shape setting step S17 for acquiring the cross-sectional shape of the preloaded fuselage as the design cross-sectional shape of the fuselage.

Abstract: A virtual camera placement system is provided which includes a user input device configured to receive user input and a display device configured to display images captured by a virtual camera. The virtual camera placement system further includes non-volatile memory configured to store instructions and a processor configured to execute the instructions to generate a three-dimensional simulation including a plurality of challenge points for a user, navigate the simulation including the challenge points in response to the user input, and control the virtual camera in the simulation differently in a plurality of camera stages based on at least the user input and an outcome of navigating one or more of the challenge points.

Abstract: Described herein are nanopore protein conjugates that can be used in DNA sequencing reactions. The nanopore protein conjugates includes a nanopore protein monomer that is joined to a DNA binding domain. The nanopore protein monomer is available to oligomerize with other nanopore protein monomers, while the DNA binding domain is available to bind to a template DNA strand. In certain examples, the nanopore protein monomer is an alpha-hemolysin monomer or variant thereof and the DNA binding domain is an Sso7d protein or variant thereof, such as an Sso7d-like protein. Also provided are nanopore protein assemblies incorporating the nanopore protein conjugates, along with methods of using the nanopore protein assemblies in sequencing reactions.

Abstract: Described herein are variants of alpha-hemolysin having at least one amino acid substitution at H35G, E111N, M113A, and/or K147N in the mature, wild-type alpha-hemolysin amino acid sequence. In certain examples, the variant may have a substitution at E111S, M113S, T145S, K147S, or L1351 in the mature alpha-hemolysin amino acid sequence. The ?-hemolysin variants may also include a substitution at H144A and/or a series of glycine residues spanning residues 127 to 131 of the mature, wild-type alpha hemolysin. Also provided are nanopore assemblies including the alpha-hemolysin variants, the assembly having an increased nanopore lifetime. Further, provided are variants that, in addition to providing increased lifetime, provide a decreased time-to-thread. Hence, the variants provided herein both increase nanopore lifetime and improve efficiency and accuracy of DNA sequencing reactions using nanopores comprising the variants.

Abstract: The present invention relates generally to medical equipment, more particularly, the use of fluid hoses coupling tanks to cannulas, as part of medical gas therapy, such as oxygen therapy. The invention describes a collection system for managing excess flexible hose that a patient might need to wear for medical reasons such as home oxygen medical therapy. It comprises a non-spooling roller system attached to a receptacle for collecting excess hose into the receptacle and extraction from the receptacle, and a power system to power and control the roller system, and design features that optimize the collection and extraction.

Abstract: Described herein are variants of alpha-hemolysin having at least one amino acid substitution at H35G, E111N, M113A, and/or K147N in the mature, wild-type alpha-hemolysin amino acid sequence. In certain examples, the variant may have a substitution at E111S, M113S, T145S, K147S, or L1351 in the mature alpha-hemolysin amino acid sequence. The ?-hemolysin variants may also include a substitution at H144A and/or a series of glycine residues spanning residues 127 to 131 of the mature, wild-type alpha hemolysin. Also provided are nanopore assemblies including the alpha-hemolysin variants, the assembly having an increased nanopore lifetime. Further, provided are variants that, in addition to providing increased lifetime, provide a decreased time-to-thread. Hence, the variants provided herein both increase nanopore lifetime and improve efficiency and accuracy of DNA sequencing reactions using nanopores comprising the variants.

Abstract: An apparatus for manipulating particles includes: a rotor rotatable at a speed about an axis, the rotor having an outer periphery and front and rear opposite sides; at least one chamber mounted on the rotor, each chamber having an inlet and an outlet; an umbilical assembly rotatable about the axis; and a drive mechanism configured to rotate the umbilical assembly at about one-half the speed of the rotor. The umbilical assembly includes: a curvilinear guide tube connecting to a drum at the rear side of the rotor; a flexible conduit residing in the guide tube; and first and second elongate passageways for each chamber extending through the conduit, wherein the first passageway is in fluid communication with the inlet of a respective chamber and the second passageway is in fluid communication with the outlet of the respective chamber. The passageways are held in a spaced-apart relationship relative to one another.

Abstract: Cable robots may be used to automatically load items onto one or more surfaces in any environment. An item may be received on a carrier that is connected to tensioning actuators of a cable robot by one or more cables in tension. The actuators of the robot may be manipulated in concert to move the carrier from a first position to a second position, which may be fixed or in motion, at which the item may be expelled from the carrier. The carrier may include induction wheels and/or conveyors for receiving the item thereon and for expelling the item therefrom. The cable robot may be provided in series with a conveyor and mounted to a frame, and used to load items onto a delivery vehicle, such that the frame may be withdrawn as items are loaded.

Abstract: A portable aircraft maintenance stand includes a frame assembly and a deck. The frame assembly has a base portion and an upper portion. The deck is mounted to the upper portion of the frame assembly and includes a cantilevered portion. The deck also has a gap configured to receive an engine of an aircraft such that the deck at least partially wraps around the engine. The cantilevered portion of the deck is configured to be positioned vertically above a wing of the aircraft while the base portion of the frame assembly is positioned vertically below the wing.

Abstract: A token dispensing system is adapted suitable for installing a token dispenser in a game device. A mounting bracket for the token dispenser provides a simple and inexpensive way to install the token dispenser as part of the token dispensing system inside the housing of a game device. The dispensing system includes an electronic control circuit that controls an alarm device to provide a low level warning signal when the level of tokens in the token dispenser is low and an empty warning signal when the token dispenser is empty. The electronic control circuit controls dispensing tokens from the token dispenser such that a user receives the correct number of tokens even if the dispenser runs out of tokens in the middle of dispensing a selected number of tokens during a transaction.

Abstract: Described herein are variants of alpha-hemolysin having at least one amino acid substitution at H35G, E111N, M113A, and/or K147N in the mature, wild-type alpha-hemolysin amino acid sequence. In certain examples, the variant may have a substitution at E111S, M113S, T145S, K147S, or L1351 in the mature alpha-hemolysin amino acid sequence. The a-hemolysin variants may also include a substitution at H144A and/or a series of glycine residues spanning residues 127 to 131 of the mature, wild-type alpha hemolysin. Also provided are nanopore assemblies including the alpha-hemolysin variants, the assembly having an increased nanopore lifetime. Further, provided are variants that, in addition to providing increased lifetime, provide a decreased time-to-thread. Hence, the variants provided herein both increase nanopore lifetime and improve efficiency and accuracy of DNA sequencing reactions using nanopores comprising the variants.