| SKU | Test Kits | Buffer | Dye Color | Order Now |
|---|---|---|---|---|
| ATXN1-ARG1-20-RERE | 20 (40 μL) | 200 μL |
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| ATXN1-ARG1-20-REOR | 20 (40 μL) | 200 μL |
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| ATXN1-ARG1-20-REGO | 20 (40 μL) | 200 μL |
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| ATXN1-ARG1-20-REGR | 20 (40 μL) | 200 μL |
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| ATXN1-ARG1-20-REAQ | 20 (40 μL) | 200 μL |
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| ATXN1-ARG1-20-ORRE | 20 (40 μL) | 200 μL |
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| ATXN1-ARG1-20-OROR | 20 (40 μL) | 200 μL |
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| ATXN1-ARG1-20-ORGO | 20 (40 μL) | 200 μL |
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| ATXN1-ARG1-20-ORGR | 20 (40 μL) | 200 μL |
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| ATXN1-ARG1-20-ORAQ | 20 (40 μL) | 200 μL |
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| ATXN1-ARG1-20-GORE | 20 (40 μL) | 200 μL |
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| ATXN1-ARG1-20-GOOR | 20 (40 μL) | 200 μL |
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| ATXN1-ARG1-20-GOGO | 20 (40 μL) | 200 μL |
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| ATXN1-ARG1-20-GOGR | 20 (40 μL) | 200 μL |
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| ATXN1-ARG1-20-GOAQ | 20 (40 μL) | 200 μL |
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| ATXN1-ARG1-20-GRRE | 20 (40 μL) | 200 μL |
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| ATXN1-ARG1-20-GROR | 20 (40 μL) | 200 μL |
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| ATXN1-ARG1-20-GRGO | 20 (40 μL) | 200 μL |
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| ATXN1-ARG1-20-GRGR | 20 (40 μL) | 200 μL |
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| ATXN1-ARG1-20-GRAQ | 20 (40 μL) | 200 μL |
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| ATXN1-ARG1-20-AQRE | 20 (40 μL) | 200 μL |
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| ATXN1-ARG1-20-AQOR | 20 (40 μL) | 200 μL |
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| ATXN1-ARG1-20-AQGO | 20 (40 μL) | 200 μL |
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| ATXN1-ARG1-20-AQGR | 20 (40 μL) | 200 μL |
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| ATXN1-ARG1-20-AQAQ | 20 (40 μL) | 200 μL |
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Arginase catalyzes the hydrolysis of arginine to ornithine and urea. At least two isoforms of mammalian arginase exist (types I and II) which differ in their tissue distribution, subcellular localization, immunologic crossreactivity and physiologic function. The type I isoform encoded by this gene, is a cytosolic enzyme and expressed predominantly in the liver as a component of the urea cycle. Inherited deficiency of this enzyme results in argininemia, an autosomal recessive disorder characterized by hyperammonemia. Two transcript variants encoding different isoforms have been found for this gene. [provided by RefSeq, Sep 2011]
Gene Symbol : ARG1
Gene Name : Arginase 1
Chromosome : CHR 6: 131,573,158-131,584,331
Locus : 6q23.2
The autosomal dominant cerebellar ataxias (ADCA) are a heterogeneous group of neurodegenerative disorders characterized by progressive degeneration of the cerebellum, brain stem and spinal cord. Clinically, ADCA has been divided into three groups: ADCA types I-III. ADCAI is genetically heterogeneous, with five genetic loci, designated spinocerebellar ataxia (SCA) 1, 2, 3, 4 and 6, being assigned to five different chromosomes. ADCAII, which always presents with retinal degeneration (SCA7), and ADCAIII often referred to as the `pure' cerebellar syndrome (SCA5), are most likely homogeneous disorders. Several SCA genes have been cloned and shown to contain CAG repeats in their coding regions. ADCA is caused by the expansion of the CAG repeats, producing an elongated polyglutamine tract in the corresponding protein. The expanded repeats are variable in size and unstable, usually increasing in size when transmitted to successive generations. The function of the ataxins is not known. This locus has been mapped to chromosome 6, and it has been determined that the diseased allele contains 40-83 CAG repeats, compared to 6-39 in the normal allele, and is associated with spinocerebellar ataxia type 1 (SCA1). Alternative splicing results in multiple transcript variants, with one variant encoding multiple distinct proteins, ATXN1 and Alt-ATXN1, due to the use of overlapping alternate reading frames. [provided by RefSeq, Nov 2017]
Gene Symbol : ATXN1
Gene Name : Ataxin 1
Chromosome : CHR 6: 167,614,89-162,991,11
Locus : 6p22.3
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