CPC Class C12Q

The present invention is in the field of plant breeding and disease resistance. More specifically, the invention includes a method for breeding corn plants containing one or more markers that are associated with resistance to bacteria. The invention further includes germplasm and the use of germplasm containing at least one marker associated with resistance to Bacterial Stalk Rot (BSR) infection for introgression into elite germplasm in a breeding program, thus producing novel BSR resistant germplasm.

The invention provides specific transgenic cotton plants, plant material and seeds, characterized in that these products harbor a specific transformation event at a specific location in the cotton genome. Tools are also provided which allow rapid and unequivocal identification of the event in biological samples.

A method for at least one of characterizing, diagnosing, and treating a condition associated with microbiome-derived functional features in at least a subject, the method comprising: receiving an aggregate set of biological samples from a population of subjects; generating at least one of a microbiome composition dataset and a microbiome functional diversity dataset for the population of subjects; generating a characterization of the condition based upon features extracted from at least one of the microbiome composition dataset and the microbiome functional diversity dataset; based upon the characterization, generating a therapy model configured to correct the condition; and at an output device associated with the subject, promoting a therapy to the subject based upon the characterization and the therapy model.

The object of the present invention is to provide a fundamental therapy to mitochondrial genetic diseases caused by mutation of the mitochondrial (mt)DNA, and a pharmaceutical composition used for the same.The object can be solved by a polyamide compound binding to a target double-stranded mtDNA comprising A/T pair consisting of first A of the following sense-stranded DNA and the corresponding T, A/T pair consisting of 8th A of the following sense-stranded DNA and the corresponding T, G/C pair consisting of 9th G of the following sense-stranded DNA and the corresponding C, G/C pair consisting of 14th G of the following sense-stranded DNA and the corresponding C, T/A pair consisting of 15th T of the following sense-stranded DNA and the corresponding A, or the like, in the double-stranded DNA consisting of the sense-stranded DNA having base sequence of 5′-ATGGCAGAGCCCGGTAATCGCATAA-3′ (SEQ ID NO: 1) and the antisense-stranded DNA having base sequence of 5′-TTATGCGATTACCGGGCTCTGCCAT-3′ (SEQ ID NO: 2).

The present disclosure provides diagnostic methods useful for predicting a patient's response to alvocidib and guiding a physician decision to administer alvocidib to the patient.