Rare gene capture in predominantly androgenetic species

In fitting genetic models on the basis of observations on an interrelated structure, sequential procedures can enhance efficiency. In this paper we consider the case of a rare gene segregating in a single large pedigree. The sampling rule is dictated by the effect of observations on the genotypic probability distribution of unobserved relatives; this effect is investigated.

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Extraction of Streptomyces spores from soil and detection of rare gene transfer events

Genetic Interactions Among Microorganisms in the Natural Environment ◽

10.1016/b978-0-08-042000-4.50011-5 ◽

1992 ◽

pp. 91-103

Author(s):

P.R. Herron ◽

E.M.H. Wellington

Keyword(s):

Gene Transfer ◽

Rare Gene

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Chromosomal gene capture mediated by the Pseudomonas putida TOL catabolic plasmid.

Journal of Bacteriology ◽

10.1128/jb.176.15.4635-4641.1994 ◽

1994 ◽

Vol 176 (15) ◽

pp. 4635-4641 ◽

Cited By ~ 26

Author(s):

M I Ramos-González ◽

M A Ramos-Díaz ◽

J L Ramos

Keyword(s):

Pseudomonas Putida ◽

Chromosomal Gene ◽

Gene Capture ◽

Catabolic Plasmid

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Precision Detection Technology: Equipping Precision Oncology with Wings

Journal of Oncology ◽

10.1155/2020/9068121 ◽

2020 ◽

Vol 2020 ◽

pp. 1-8 ◽

Cited By ~ 1

Author(s):

Rilan Bai ◽

Zheng Lv ◽

Xiao Chen ◽

Hanfei Guo ◽

Ling Bai ◽

...

Keyword(s):

Liquid Biopsy ◽

New Drugs ◽

Therapeutic Effects ◽

Precision Oncology ◽

Detection Techniques ◽

Detection Technology ◽

Future Challenges ◽

Rare Gene ◽

The Many

In recent years, precision medical detection techniques experienced a rapid transformation from low-throughput to high-throughput genomic sequencing, from multicell promiscuous detection to single-cell precision sequencing. The emergence of liquid biopsy technology has compensated for the many limitations of tissue biopsy, leading to a tremendous transformation in precision detection. Precision detection techniques contribute to monitoring disease development more closely, evaluating therapeutic effects more scientifically, and developing new targets and new drugs. In the future, the role of precision detection and the joint detection in epigenetics, rare gene detection, individualized targeted therapy, and multigene targeted drug combination therapy should be extensively explored. This article reviews the changes in precision medical detection technology in the era of precision medicine, as well as the development, clinical application, and future challenges of liquid biopsy.

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Molecular basis of glutathione synthetase deficiency and a rare gene permutation event

The EMBO Journal ◽

10.1093/emboj/18.12.3204 ◽

1999 ◽

Vol 18 (12) ◽

pp. 3204-3213 ◽

Cited By ~ 62

Author(s):

G. Polekhina

Keyword(s):

Molecular Basis ◽

Glutathione Synthetase ◽

Synthetase Deficiency ◽

Glutathione Synthetase Deficiency ◽

Rare Gene

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Contributions of Rare Gene Variants to Familial and Sporadic FSGS

Journal of the American Society of Nephrology ◽

10.1681/asn.2019020152 ◽

2019 ◽

Vol 30 (9) ◽

pp. 1625-1640 ◽

Cited By ~ 12

Author(s):

Minxian Wang ◽

Justin Chun ◽

Giulio Genovese ◽

Andrea U. Knob ◽

Ava Benjamin ◽

...

Keyword(s):

Rare Variants ◽

Single Gene ◽

Genetic Diagnosis ◽

Unrelated Family ◽

The Past ◽

New Genes ◽

Rare Gene ◽

Gene Defects ◽

Disease Associated Genes ◽

Burden Tests

BackgroundOver the past two decades, the importance of genetic factors in the development of FSGS has become increasingly clear. However, despite many known monogenic causes of FSGS, single gene defects explain only 30% of cases.MethodsTo investigate mutations underlying FSGS, we sequenced 662 whole exomes from individuals with sporadic or familial FSGS. After quality control, we analyzed the exome data from 363 unrelated family units with sporadic or familial FSGS and compared this to data from 363 ancestry-matched controls. We used rare variant burden tests to evaluate known disease-associated genes and potential new genes.ResultsWe validated several FSGS-associated genes that show a marked enrichment of deleterious rare variants among the cases. However, for some genes previously reported as FSGS related, we identified rare variants at similar or higher frequencies in controls. After excluding such genes, 122 of 363 cases (33.6%) had rare variants in known disease-associated genes, but 30 of 363 controls (8.3%) also harbored rare variants that would be classified as “causal” if detected in cases; applying American College of Medical Genetics filtering guidelines (to reduce the rate of false-positive claims that a variant is disease related) yielded rates of 24.2% in cases and 5.5% in controls. Highly ranked new genes include SCAF1, SETD2, and LY9. Network analysis showed that top-ranked new genes were located closer than a random set of genes to known FSGS genes.ConclusionsAlthough our analysis validated many known FSGS-causing genes, we detected a nontrivial number of purported “disease-causing” variants in controls, implying that filtering is inadequate to allow clinical diagnosis and decision making. Genetic diagnosis in patients with FSGS is complicated by the nontrivial rate of variants in known FSGS genes among people without kidney disease.

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Sorting Rare ALS Genetic Variants by Targeted Re-Sequencing Panel in Italian Patients: OPTN, VCP, and SQSTM1 Variants Account for 3% of Rare Genetic Forms

Journal of Clinical Medicine ◽

10.3390/jcm9020412 ◽

2020 ◽

Vol 9 (2) ◽

pp. 412 ◽

Cited By ~ 3

Author(s):

Viviana Pensato ◽

Stefania Magri ◽

Eleonora Dalla Bella ◽

Pierpaola Tannorella ◽

Enrica Bersano ◽

...

Keyword(s):

Genetic Variants ◽

Next Generation Sequencing Technology ◽

Variants Of Unknown Significance ◽

Pathogenic Variants ◽

Unknown Significance ◽

Rare Gene ◽

Motor Neuron Loss ◽

Generation Sequencing ◽

Lateral Sclerosis ◽

Diagnostic Investigations

Amyotrophic lateral sclerosis (ALS) is an adult-onset progressive neurodegenerative disease due to motor neuron loss variably associated with frontotemporal dementia (FTD). Next generation sequencing technology revealed an increasing number of rare and novel genetic variants and interpretation of their pathogenicity represents a major challange in the diagnosis of ALS. We selected 213 consecutive patients with sporadic or familial (16%) ALS, tested negative for SOD1, FUS, TARDBP, and C9orf72 mutations. To reveal rare forms of genetic ALS, we performed a comprehensive multi-gene panel screening including 46 genes associated with ALS, hereditary motor neuronopathies, spastic paraplegia, and FTD. Our study allowed the identification of pathogenic or likely pathogenic variants in 4.2% of patients. The genes with the highest percentage of pathogenic variants were OPTN (1%), VCP (1%) SQSTM1(1%), SETX (0.4%), FIG4 (0.4%), and GARS1 (0.4%) genes. We also found 49 novel or rare gene variants of unknown significance in 30 patients (14%), 44 unlikely pathogenic variants (39%), and 48 variants in ALS susceptibility genes. The results of our study suggest the screening of OPTN, VCP, and SQSTM1 genes in routine diagnostic investigations for both sporadic and familial cases, and confirm the importance of diagnosis and couselling for patients and their relative family members.

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