Abstract: This specification discloses compositions of matter and processes that allow the detection of RNA from coronaviruses and other RNA viruses, in particular, compositions and processes that have the capacity to detect in multiplexed form many RNA targets within individual viruses, targets from multiple viruses, and other RNA molecules that can be used as positive controls.

Abstract: The disclosed invention teaches processes to create a Watson-Crick complementary copy of a preselected oligonucleotide that contain non-standard nucleotides, which form nucleobase pairs fitting the standard Watson-Crick geometry, but here said pairs are joined by hydrogen bonding patterns different from those that join standard A:T and G:C pairs. The invention further relates to polymerases that incorporate those non-standard nucleotide analogs into oligonucleotide products using the corresponding triphosphate derivatives.

Abstract: This invention relates to processes that amplify oligonucleotide analogs that incorporate non-standard nucleobase analogs from an artificially expanded genetic information system. These pair in DNA duplexes via patterns of hydrogen bonds that differ from patterns that join the thymine-adenine and guanine-cytosine nucleobase pairs.

Abstract: This invention relates to the use of analogs of purines that have two tautomeric forms, one formally complementary to thymidine, the other formally complementary to cytidine, and analogs of pyrimidines that have two tautomeric forms, one formally complementary to guanosine, the other formally complementary to adenosine. These uses include the polymerase chain reaction amplification of targets having polymorphisms in primer binding sites and ligation.

Abstract: Disclosed are processes that use DNA polymerases to extend primers annealed to templates, wherein a standard nucleotide in the template guiding the extension directs the incorporation of a nonstandard nucleotide analog into the product duplex opposite that standard template nucleotide, and processes wherein a nonstandard nucleotide in the template guiding the extension directs the incorporation of a standard nucleotide analog opposite the nonstandard template nucleotide. Conditions, including the pH of the mixture where the primer extension is done and the composition of triphosphate mixtures where the primary extensions done, are disclosed.

Abstract: An assembled dual-use balance car, comprises balance car body comprising a first foot board, a second foot board, a first and a second wheel, a first and a second motor respectively, and a balance control system, the balance car body being moved forward, draw back, and turns by tilting the first and second foot board forward and backward, and rotating around each other; a steering assembly comprising a locking part configured to prevent the first and second foot board from being rotating around each other, and a sensor assembly disposed at a bottom end of the steering rod and configured as a steering control of the balance car body, the sensor assembly being electrically connected with the balance control system; the steering assembly can be assembled and disassembled flexibly in the assembled dual-use balance car based on actual using situation.

Abstract: This invention provides for products and processes for binding to a preselected target, where the process involves contacting this target to an oligonucleotide molecule that contains one or more “non-standard” nucleotides, which are nucleotide analogs that, when incorporated into oligonucleotides (DNA or RNA, collectively xNA), present to a complementary strand in a Watson-Crick pairing geometry a pattern of hydrogen bonds that is different from the pattern presented by adenine, guanine, cytosine, and uracil. This disclosure provides an example where such an oligonucleotide molecule contains a single 2-amino-8-(1?-?-D-2?-deoxyribofuranosyl)-imidazo[1,2-a]-1,3,5-triazin-4(8H)one and a single 6-amino-5-nitro-3-(1?-?-D-2?-deoxyribofuranosyl)-2(1H)-pyridone, and where the target is a cell, and is obtained by a process of in vitro selection.

Abstract: An assembled dual-use balance car, comprises balance car body comprising a first foot board, a second foot board, a first and a second wheel, a first and a second motor respectively, and a balance control system, the balance car body being moved forward, draw back, and turns by tilting the first and second foot board forward and backward, and rotating around each other; a steering assembly comprising a locking part configured to prevent the first and second foot board from being rotating around each other, and a sensor assembly disposed at a bottom end of the steering rod and configured as a steering control of the balance car body, the sensor assembly being electrically connected with the balance control system; the steering assembly can be assembled and disassembled flexibly in the assembled dual-use balance car based on actual using situation.

Abstract: This invention relates to processes that amplify, in a polymerase chain reaction architecture, oligonucleotide analogs that incorporate non-standard nucleobase analogs from an artificially expanded genetic information system. These pair in DNA duplexes via patterns of hydrogen bonds that are different from patterns that join the thymine-adenine and guanine-cytosine nucleobase pairs.

Abstract: This invention covers processes for the isothermal amplification of DNA molecules having a preselected sequence. It is based on the unexpected discovery that primers having, at some positions, adenine substituted by 2-aminopurine or diaminopurine, guanine by inosine, thymine by 2-thiothymine, and cytosine by N4-ethylcytosine (“SAMRS nucleotides”) were accepted by enzymes used in the standard helicase-dependent amplification (HDA). Further unexpected was the discovery that target nucleotides are efficiently amplified in an HDA-like process (hereinafter abbreviated as simply HDA) using substituted primers. Also discovered was the diminution of spurious products through the use of SAMRS-substituted primers.

Abstract: This invention covers processes for the isothermal amplification of DNA molecules having a preselected sequence. It is based on the unexpected discovery that primers having, at some positions, adenine substituted by 2-aminopurine or diaminopurine, guanine by inosine, thymine by 2-thiothymine, and cytosine by N4-ethylcytosine (“SAMRS nucleotides”) were accepted by enzymes used in the standard helicase-dependent amplification (HDA). Further unexpected was the discovery that target nucleotides are efficiently amplified in an HDA-like process (hereinafter abbreviated as simply HDA) using substituted primers. Also discovered was the diminution of spurious products through the use of SAMRS-substituted primers.

Abstract: The disclosed invention teaches processes to amplify oligonucleotides by contacting templates and primers with DNA polymerases and triphosphates of non-standard nucleotides, which form nucleobase pairs fitting the standard Watson-Crick geometry, but joined by hydrogen bonding patterns different from those that join standard A:T and G:C pairs. Thus, this invention relates to nucleotide analogs and their derivatives that, when incorporated into DNA and RNA, expand the number of replicatable nucleotides beyond the four found in standard DNA and RNA. The invention further relates to polymerases that incorporate those non-standard nucleotide analogs into oligonucleotide products using the corresponding triphosphate derivatives, and more specifically, polymerases and non-standard nucleoside triphosphates that support the polymerase chain reaction (PCR), including PCR where the products contain more than one non-standard nucleotide unit.

Abstract: This invention enables processes for extracting from a mixture of oligonucleotide molecules individuals that bind to a preselected target (aptamers) or catalyze a preselected reaction (xNAzymes) that contain one or more non-standard nucleotides. These pair with their complements in a Watson-Crick geometry with a pattern of hydrogen bonds different from that pairing adenine and thymine, and guanine and cytosine. The processes comprise (a) obtaining this mixture containing non-standard nucleotides within preselected regions, (b) contacting the mixture with a preselected target or one or more reactants for the reaction whose catalysis is desired, (c) separating oligonucleotides having a greater affinity to the target or catalytic effectiveness from the remainder that have less affinity or catalytic effectiveness, and (d) amplifying the separated oligonucleotides.

Abstract: The disclosed invention teaches processes to amplify oligonucleotides by contacting templates and primers with DNA polymerases and triphosphates of non-standard nucleotides, which form nucleobase pairs fitting the standard Watson-Crick geometry, but joined by hydrogen bonding patterns different from those that join standard A:T and G:C pairs. Thus, this invention relates to nucleotide analogs and their derivatives that, when incorporated into DNA and RNA, expand the number of replicatable nucleotides beyond the four found in standard DNA and RNA. The invention further relates to polymerases that incorporate those non-standard nucleotide analogs into oligonucleotide products using the corresponding triphosphate derivatives, and more specifically, polymerases and non-standard nucleoside triphosphates that support the polymerase chain reaction (PCR), including PCR where the products contain more than one non-standard nucleotide unit.