Fmr 1-Sls: Improving Fragile X Diagnosis Using Amplification-Free Single Locus Ta
Award last edited on: 5/7/2019

Sponsored Program
Awarding Agency
Total Award Amount
Award Phase
Solicitation Topic Code
Principal Investigator
Stephen W Turner

Company Information

Pacific Biosciences of California Inc (AKA: NFI~Nanofluidics Inc~Pacific Biosciences~PacBio)

1380 Willow Road
Menlo Park, CA 94025

Research Institution

University of California - Davis

Phase I

Contract Number: 1R42HD078988-01
Start Date: 9/16/2013    Completed: 7/14/2014
Phase I year
Phase I Amount
Expansion of the trinucleotide repeat CGG in the FMR1 gene causes dysregulation of FMR1 protein expression and results in a host of serious conditions, from cognitive impairment, autism, ovarian failure, and progressive neurological disorders. Over 1.5 million Americans harbor expanded repeat regions, and 10 million are indicated by symptoms or family history to be tested for the expansion. Because of the 100% GC content of the region of interest and the clinical range of observed repeat lengths, prior sequencing methods have lacked the ability to read through this repeat. DNA fragment sizing methods are used today, either Southern Blotting or PCR followed by capillary electrophoresis, to categorize individuals as having normal, premutation or full mutation alleles. In Fragile X, the premutation category represents a distinct genotype with its own recommendations and clinical outcome, thus misclassifications caused by inherent fragment sizing inaccuracies in these methods are detrimental to the treatment of patients, leading to inappropriate or even damaging guidance. This locus often exhibits mosaicism in the repeat length, which has recently been shown to affect the severity of disease and also to be predictive of drug response (or lack thereof). These methods lack the sensitivity to detect clinically important levels of mosaicism. Interruptions of the CGG repeat motif by AGG sequences greatly reduce progression to full mutation status in offspring of premutation carriers, but the size-based methods used today don't convey any information about those features. Pacific Biosciences' Single Molecule, Real-Time (SMRT(R)) Sequencing has the ability to read through virtually any DNA sequence context (including trinucleotide repeats of CGG), produces reads averaging almost 5000 bases in length, and intrinsically produces information about the methylation status of the region important to research and clinical diagnosis. Application of SMRT sequencing to FMR1 has already been demonstrated for PCR amplicons, but to avoid the spurious repeat lengths produced by PCR, means of targeting the locus without the use of PCR are required for translation of this method to the clinic. Therefore the Phase I aims of this program are: i) to demonstrate at least 100 reads from unamplified DNA from < 20 ug of gDNA taken from blood, ii) show that the entire clinical range of mutations can thus be analyzed, iii) show the ability to detect minor alleles in mosaic individuals and iv) show that the methylation status of these alleles can be determined using the kinetic information SMRT sequencing yields. The goal of Phase II is to optimize the assay, develop the required informatics tools, prove the assay in the context of a 300-person concordance study and then transfer the technology to the UC Davis CLIA lab for development into a clinical diagnostic test which will be made available to clinicians at the start of Phase III.

Public Health Relevance Statement:

Public Health Relevance:
More than 1.5 million people in the United States are carriers of an abnormal version of the gene responsible for Fragile X Syndrome. Abnormalities in this gene are associated with a host of diseases: it is the leading cause of cognitive impairment and the largest genetic factor identified so far in autism. It is a major cause of premature menopause in women and in men it is the cause of one of the most common progressive neurological diseases that can be inherited from a single gene. Ten million Americans have symptoms or a family history that indicates they should be tested for this altered gene. But, available testing methods have several shortcomings. DNA sequencing would be ideal, but because the gene contains a sequence of genetic letters that is unreadable to sequencing technologies that came before, the most important range of gene alterations could not previously be sequenced. The alternative methods that are used have serious accuracy issues, and only report the size-not the contents-of the gene. This proposal brings a new type of DNA sequencing, Single-Molecule Real-Time (SMRT) sequencing-a method that has been shown to be capable of reading virtually any sequence of DNA letters-- to bear on this important gene. At the end of a successful program, patients will have access to a test that is more accurate, more sensitive, more informative and less expensive.

NIH Spending Category:
Autism; Behavioral and Social Science; Biotechnology; Brain Disorders; Clinical Research; Fragile X Syndrome; Genetic Testing; Genetics; Intellectual and Developmental Disabilities (IDD); Mental Health; Neurosciences; Pediatric; Rare Diseases

Project Terms:
Adult; Affect; Algorithms; Alleles; American; Autistic Disorder; base; Behavioral; Biological Assay; Blinded; Blood; Capillary Electrophoresis; Categories; CGG repeat; CGG repeat expansion; Child; Clinic; Clinical; clinical Diagnosis; Clinical Research; Cognitive; Collaborations; Complex; Coupled; Development; Diagnosis; Diagnostic; Diagnostic tests; Disease; DNA; DNA Sequence; Exhibits; Family; FMR1 Gene; Fragile X Mental Retardation Protein; Fragile X Premutation; Fragile X Syndrome; FXTAS; Gait Ataxia; Gel; Gene Mutation; Genes; Genetic; Genetic Risk; Genomics; Genotype; Goals; Gold; Guanine + Cytosine Composition; Impaired cognition; Impairment; improved; Individual; Informatics; Inherited; Intellectual functioning disability; interest; Interruption; Kinetics; Length; Letters; Measurable; medical schools; men; Methodology; Methods; Methylation; Minor; Mosaicism; Mothers; Mutation; Nerve Degeneration; nervous system disorder; neurodevelopment; novel; novel diagnostics; offspring; Outcome; Ovarian; ovarian failure; Patients; Persons; Pharmaceutical Preparations; Phase; Premature Menopause; Procedures; programs; protein expression; Protocols documentation; public health relevance; Reading; Recommendation; Recording of previous events; Reporting; Research; response; Sampling; Scientist; Sequence Analysis; Severity of illness; single molecule; Southern Blotting; Symptoms; Technology; Technology Transfer; Testing; Time; tool; Translations; transmission process; Trinucleotide Repeat Expansion; Trinucleotide Repeats; Turner's Syndrome; United States; Ursidae Family; Validation; Woman

Phase II

Contract Number: ----------
Start Date: 00/00/00    Completed: 00/00/00
Phase II year
Phase II Amount