Abstract: The present invention is directed to a method of species identification and quality detection of liquid-like samples based on nuclear magnetic resonance technology. In this invention, a two-dimensional relaxation signal containing the 1H T1 and T2 relaxation properties of liquid-like samples is obtained by applying a composite pulse sequence to samples, and from this a fingerprint spectrum is established. The fingerprint spectrum can be associated with the essential characteristics of the tested sample, thus can be used to distinguish a specific liquid-like sample from the others.

Abstract: A method uses the nuclear spin singlet of three hydrogen atoms on the dopamine benzene ring to achieve selective detection of dopamine signals in a complicated system. The present invention is based on magnetic resonance technology to detect dopamine, has good accuracy, sensitivity and selectivity, can accurately detect the signal of dopamine from the complicated system, and the interference of signals of other substances are well eliminated. Meanwhile, the present invention further has the advantages of simple operation and non-intervention, can be used for monitoring the content and distribution of the dopamine in a living body, and has important application value in the fields of biology and medicine.

Abstract: Provided is a method for transducing cells with a viral vector, and further provided are cells obtained through recombination or heterologous gene transduction and compositions thereof, and a method for using same in adoptive immunotherapy. Under the premise of not affecting the expression of recombinant nucleic acid, the method shortens the activation and transduction time during the preparation process of genetically engineered cells.

Abstract: The present invention discloses a method of species identification and quality detection of liquid-like samples based on nuclear magnetic resonance technology. In this invention, a two-dimensional relaxation signal containing the 1H T1 and T2 relaxation properties of liquid-like samples is obtained by applying a specially designed composite pulse sequence to liquid-like samples, and a fingerprint spectrum from this signal is established. The fingerprint spectrum can be associated with the essential characteristics of the tested sample, thus can be used to distinguish a specific liquid-like sample from the others. The fingerprint spectrum can be easily converted into a digital form, which is not only suitable for constructing big data of fingerprint spectrum for liquid-like samples, but also can be used for quality detection and authenticity judgment of liquid-like samples based on artificial intelligence.

Abstract: The present invention discloses a method for selectively detecting dopamine based on magnetic resonance nuclear spin singlet state. The method uses the nuclear spin singlet of three hydrogen atoms on the dopamine benzene ring to achieve selective detection of dopamine signals in a complicated system. The present invention is based on magnetic resonance technology to detect dopamine, has good accuracy, sensitivity and selectivity, can accurately detect the signal of dopamine from the complicated system, and the interference of signals of other substances are well eliminated. Meanwhile, the present invention further has the advantages of simple operation and non-intervention, can be used for monitoring the content and distribution of the dopamine in a living body, and has important application value in the fields of biology and medicine.