Mouse Expression Profiling Arrays & Assays

Clariom™ S Pico Assay, mouse (Applied Biosystems™)

Obtain a gene-level view of the mouse transcriptome with the Clariom S Pico Assays for mouse. The Clariom S Pico Assays, mouse serve as a next generation transcriptome-wide gene-level expression profiling tool, which allow for the fastest, simplest, and most scalable path to generating actionable results. Based on industry-leading microarray technology, the novel mouse Clariom S Assay design provides extensive coverage of all known well-annotated genes, compatibility with clinical sample types, scalable formats, and flexible data analysis software. Clariom S Pico Assays are the tools of choice to find expression biomarkers with known function as quickly, easily, and cost-effectively as possible.

Find answers, move on
Although the number of known transcribed genes has expanded rapidly in recent years, knowledge of the function of each gene is still evolving. Many genes and transcripts found in databases are poorly annotated or unannotated, which can complicate and prolong data analysis and interpretation. mouse Clariom S Pico Assays focus on well-annotated genes, providing researchers with the ability to perform gene-level expression profiling studies and to quickly assess changes in key genes and pathways. With less time required for data analysis, Clariom S Pico Assays for mouse help researchers reach conclusions more rapidly.

Simple, swift biomarker discovery
• Accurately measure gene-level expression from >20,000 well-annotated genes to get to answers quickly.
• Choose a format that suits your throughput needs, processing from 1 to 192 samples a day.
• Go from data to insight in minutes with intuitive, highly visual, free analysis software designed for the biologist.

When you have precious samples, get it right the first time
• Generate robust expression profiles from as little as 100 pg of total RNA–as few as 10 cells.
• Utilize RNA from various sample types including blood, cells, and fresh/fresh-frozen or FFPE tissues.
• Preserve sample integrity and reduce data variability with an assay that does not require a globin or rRNA removal step.
• Save time and money with fully automated sample preparation options.

Clariom S solutions are available formats for single-sample (cartridge array) processing on the GeneChip™ 3000 instrument system and high-throughput automated processing (plate array) on the GeneTitan™ Microarray System, offering the flexibility to accommodate both small and large cohort studies. The complete solution comes with reagents and fast, simple Transcriptome Analysis Console (TAC) software to analyze and visualize global expression patterns of genes, pathways, and network interactions in minutes.

Get the truest level of gene-level expression
To generate robust gene-level expression, mouse Clariom S Assays detect only the exons present in all known transcript isoforms expressed from a single gene locus-constitutive exons. This differs from other gene-level array technologies and shallow RNA-Seq, which provide either a biased view of gene expression or data that are complicated by variation in expression of transcript variants. By detecting only constitutive exons throughout the length of each known gene, mouse Clariom S Assays generate the most accurate and truest measurement of gene-level expression available today.

Keeping biomarker identification across the transcriptome simple and swift, Clariom S Pico Assays for mouse provide you with the coverage you require, the reproducibility you need, and the insights you want to act on your discoveries.

GeneChip™ Mouse Gene 1.0 ST Array (Applied Biosystems™)

The GeneChip™ Mouse Gene 1.0 ST Array is a whole-transcript array that includes probes to measure both messenger (mRNA) and long intergenic non-coding RNA transcripts (lincRNA). This whole-transcript array design provides a complete expression profile of mRNA as well as the intermediary lincRNA transcripts that impact the mRNA expression profile.

Comprehensive design
Research over the past 20 years has predominantly focused on protein-coding messenger RNA transcripts and their role in cellular processes, such as disease and development. Recently researchers have identified more that 2,000 transcripts (>200 bases) in the mouse genome with little or no protein coding potential. Only a small fraction of these non-coding RNAs has functional annotations to date. However, there is ample evidence that differential expression of lincRNAs plays an important role in the genesis and progression of disease and that aberrant expression of these molecules have also been linked to cancer. Recent advancements in transcriptome profiling provided evidence of the association of lincRNAs in diverse range of cellular functions:

• Regulation of mRNA transcription
• Regulation of mRNA post-transcriptional modifications
• Occlusion/recruitment of transcription factor binding
• Activation and transportation of transcription factors
• Interaction with accessory proteins
• Guide protein complexes to locations in the genome

Key benefits
• Comprehensive coverage provides the best opportunity to discover interesting biology
   - >28,000 coding transcripts
   - >7,000 non-coding (include ˜2,000) long intergenic non-coding transcripts
• Measure alternative splicing events/transcript variants with probes designed to maximize exon coverage
• Reproducible: Intra-lot correlation coefficient = 0.99

Content profile
Since the design of the GeneChip Mouse Gene 1.0 ST Array, there has been a substantial increase in the structural and functional understanding of the mouse genome. This increase in knowledge includes the identification of a large number of long intergenic lincRNA that have been identified by the research community. In order to provide the research community with a tool that can measure the differential expression of this exciting class of RNA transcripts, we designed the GeneChip Mouse Gene 2.0 ST Array (sold separately). To supplement the lincRNA data contained in RefSeq, we used sequence and transcript data from lncRNA db (http://lncrnadb.com/).

Clariom™ S Assay HT, mouse (Applied Biosystems™)

Obtain a gene-level view of the mouse transcriptome with the Clariom S Assays HT for mouse. The Clariom S Assays, mouse serve as a next generation transcriptome-wide gene-level expression profiling tool, which allow for the fastest, simplest, and most scalable path to generating actionable results. Based on industry-leading microarray technology, the novel mouse HT Clariom S Assay design provides extensive coverage of all known well-annotated genes, compatibility with clinical sample types, scalable formats, and flexible data analysis software. Clariom S Assays HT are the tools of choice to find expression biomarkers with known function as quickly, easily, and cost-effectively as possible.

Find answers, move on
Although the number of known transcribed genes has expanded rapidly in recent years, knowledge of the function of each gene is still evolving. Many genes and transcripts found in databases are poorly annotated or unannotated, which can complicate and prolong data analysis and interpretation. mouse HT Clariom S Assays focus on well-annotated genes, providing researchers with the ability to perform gene-level expression profiling studies and to quickly assess changes in key genes and pathways. With less time required for data analysis, Clariom S Assays HT for mouse help researchers reach conclusions more rapidly.

Simple, swift biomarker discovery
• Accurately measure gene-level expression from >20,000 well-annotated genes to get to answers quickly.
• Choose a format that suits your throughput needs, processing from 1 to 192 samples a day.
• Go from data to insight in minutes with intuitive, highly visual, free analysis software designed for the biologist.

When you have precious samples, get it right the first time
• Generate robust expression profiles from as little as 100 pg of total RNA–as few as 10 cells.
• Utilize RNA from various sample types including blood, cells, and fresh/fresh-frozen or FFPE tissues.
• Preserve sample integrity and reduce data variability with an assay that does not require a globin or rRNA removal step.
• Save time and money with fully automated sample preparation options.

Clariom S solutions are available formats for single-sample (cartridge array) processing on the GeneChip™ 3000 instrument system and high-throughput automated processing (plate array) on the GeneTitan™ HT Microarray System, offering the flexibility to accommodate both small and large cohort studies. The complete solution comes with reagents and fast, simple Transcriptome Analysis Console (TAC) software to analyze and visualize global expression patterns of genes, pathways, and network interactions in minutes.

Get the truest level of gene-level expression
To generate robust gene-level expression, mouse HT Clariom S Assays detect only the exons present in all known transcript isoforms expressed from a single gene locus-constitutive exons. This differs from other gene-level array technologies and shallow RNA-Seq, which provide either a biased view of gene expression or data that are complicated by variation in expression of transcript variants. By detecting only constitutive exons throughout the length of each known gene, mouse HT Clariom S Assays generate the most accurate and truest measurement of gene-level expression available today.

Keeping biomarker identification across the transcriptome simple and swift, Clariom S Assays HT for mouse provide you with the coverage you require, the reproducibility you need, and the insights you want to act on your discoveries.

GeneChip™ Mouse Gene 1.1 ST Array Plate (Applied Biosystems™)

The Mouse Gene 1.1 ST 96-Array Plate and Trays enables high-throughput expression profiling of 96 samples at a time using the same content as the industry-standard GeneChip™ Mouse Gene 1.0 ST Array

Comprehensive design
Keeping pace with the research community's understanding of the transcriptome, we have designed whole-transcript arrays that include probes to measure both messenger (mRNA) and long intergenic non-coding RNA transcripts (lincRNA). These whole-transcript array designs provide a complete expression profile of mRNA as well as the intermediary lincRNA transcripts that impact the mRNA expression profile.

Research over the past 20 years has predominantly focused on protein-coding messenger RNA transcripts and their role in cellular processes, such as disease and development. Recently researchers have identified more that 2,000 transcripts (>200 bases) in the mouse genome with little or no protein coding potential. Only a small fraction of these non-coding RNAs has functional annotations to date. However, there is ample evidence that differential expression of lincRNAs plays an important role in the genesis and progression of disease and that aberrant expression of these molecules have also been linked to cancer. Recent advancements in transcriptome profiling provided evidence of the association of lincRNAs in diverse range of cellular functions:

• Regulation of mRNA transcription
• Regulation of mRNA post-transcriptional modifications
• Occlusion/recruitment of transcription factor binding
• Activation and transportation of transcription factors
• Interaction with accessory proteins
• Guide protein complexes to locations in the genome

Key benefits
• Comprehensive coverage provides the best opportunity to discover interesting biology
   - >28,000 coding transcripts
   - >7,000 non-coding (include ˜2,000) long intergenic non-coding transcripts
• Measure alternative splicing events/transcript variants with probes designed to maximize exon coverage
• Reproducible: Intra-lot correlation coefficient = 0.99

Content profile
Since the design of the Mouse Gene 1.1 ST Array Plates, there has been a substantial increase in the structural and functional understanding of the mouse genome. This increase in knowledge includes the identification of a large number of long intergenic lincRNA that have been identified by the research community. In order to provide the research community with a tool that can measure the differential expression of this exciting class of RNA transcripts, we designed the Mouse Gene 2.1 ST Array Plates (sold separately). To supplement the lincRNA data contained in RefSeq, we used sequence and transcript data from lncRNA db (http://lncrnadb.com/).

GeneChip™ Mouse Gene 2.0 ST Assay (Applied Biosystems™)

The GeneChip™ Mouse Gene 2.0 ST Array and GeneChip WT PLUS Reagent Kit is a whole-transcript array that includes probes to measure both messenger (mRNA) and long intergenic non-coding RNA transcripts (lincRNA). This whole-transcript array design provides a complete expression profile of mRNA as well as the intermediary lincRNA transcripts that impact the mRNA expression profile.

Since the design of the GeneChip Mouse Gene 1.0 ST Array, there has been a substantial increase in the structural and functional understanding of the mouse genome. This increase in knowledge includes the identification of a large number of long intergenic lincRNA that have been identified by the research community. In order to provide the research community with a tool that can measure the differential expression of this exciting class of RNA transcripts, we designed the GeneChip Mouse Gene 2.0 ST Array. To supplement the lincRNA data contained in RefSeq, we used sequence and transcript data from lncRNA db (http://lncrnadb.com/).

Comprehensive Design of Gene Arrays
Research over the past 20 years has predominantly focused on protein-coding messenger RNA transcripts and their role in cellular processes, such as disease and development. Recently researchers have identified more that 2,000 transcripts (>200 bases) in the mouse genome with little or no protein coding potential. Only a small fraction of these non-coding RNAs has functional annotations to date. However, there is ample evidence that differential expression of lincRNAs plays an important role in the genesis and progression of disease and that aberrant expression of these molecules have also been linked to cancer. Recent advancements in transcriptome profiling provided evidence of the association of lincRNAs in diverse range of cellular functions:

• Regulation of mRNA transcription
• Regulation of mRNA post-transcriptional modifications
• Occlusion/recruitment of transcription factor binding
• Activation and transportation of transcription factors
• Interaction with accessory proteins
• Guide protein complexes to locations in the genome

Key Benefits of Gene Arrays
• Comprehensive coverage provides the best opportunity to discover interesting biology
   - >28,000 coding transcripts
   - >7,000 non-coding (include ˜2,000) long intergenic non-coding transcripts
• Measure alternative splicing events/transcript variants with probes designed to maximize exon coverage
• Reproducible: Intra-lot correlation coefficient = 0.99

GeneChip WT PLUS Reagent Kit
The WT PLUS Reagent Kit uses a reverse transcription priming method that primes the entire length of each RNA transcript, including both poly-A and non-poly-A mRNA to provide complete and unbiased coverage of the transcriptome. The kit efficiently generates amplified and biotinylated sense-stranded DNA targets, avoiding loss of specificity due to antisense strand interference.

The WT PLUS Reagent Kit includes the amplification module coupled with GeneChip WT Terminal Labeling and Controls Kit for preparing hybridization-ready targets from 50 ng to 500 ng of total RNA.


Features and benefits:
• A complete target prep kit with proven sensitivity and specificity resulting from an optimized design for WT arrays
• A low sample input requirement of 50 ng. The kit works with a variety of sample types, including fresh-frozen tissues, cell lines, and whole blood
• StreamLined workflow with no ribosomal RNA depletion requirement or a globin reduction step for blood samples
• Opportunities to bundle WT arrays with WT reagents, offering exceptional cost savings
• Convenient single source for ordering and support

Clariom™ S Assay, mouse (Applied Biosystems™)

Obtain a gene-level view of the mouse transcriptome with the Clariom S Assays for mouse. The Clariom S Assays, mouse serve as a next generation transcriptome-wide gene-level expression profiling tool, which allow for the fastest, simplest, and most scalable path to generating actionable results. Based on industry-leading microarray technology, the novel mouse Clariom S Assay design provides extensive coverage of all known well-annotated genes, compatibility with clinical sample types, scalable formats, and flexible data analysis software. Clariom S Assays are the tools of choice to find expression biomarkers with known function as quickly, easily, and cost-effectively as possible.

Find answers, move on
Although the number of known transcribed genes has expanded rapidly in recent years, knowledge of the function of each gene is still evolving. Many genes and transcripts found in databases are poorly annotated or unannotated, which can complicate and prolong data analysis and interpretation. mouse Clariom S Assays focus on well-annotated genes, providing researchers with the ability to perform gene-level expression profiling studies and to quickly assess changes in key genes and pathways. With less time required for data analysis, Clariom S Assays for mouse help researchers reach conclusions more rapidly.

Simple, swift biomarker discovery
• Accurately measure gene-level expression from >20,000 well-annotated genes to get to answers quickly.
• Choose a format that suits your throughput needs, processing from 1 to 192 samples a day.
• Go from data to insight in minutes with intuitive, highly visual, free analysis software designed for the biologist.

When you have precious samples, get it right the first time
• Generate robust expression profiles from as little as 100 pg of total RNA–as few as 10 cells.
• Utilize RNA from various sample types including blood, cells, and fresh/fresh-frozen or FFPE tissues.
• Preserve sample integrity and reduce data variability with an assay that does not require a globin or rRNA removal step.
• Save time and money with fully automated sample preparation options.

Clariom S solutions are available formats for single-sample (cartridge array) processing on the GeneChip™ 3000 instrument system and high-throughput automated processing (plate array) on the GeneTitan™ Microarray System, offering the flexibility to accommodate both small and large cohort studies. The complete solution comes with reagents and fast, simple Transcriptome Analysis Console (TAC) software to analyze and visualize global expression patterns of genes, pathways, and network interactions in minutes.

Get the truest level of gene-level expression
To generate robust gene-level expression, mouse Clariom S Assays detect only the exons present in all known transcript isoforms expressed from a single gene locus-constitutive exons. This differs from other gene-level array technologies and shallow RNA-Seq, which provide either a biased view of gene expression or data that are complicated by variation in expression of transcript variants. By detecting only constitutive exons throughout the length of each known gene, mouse Clariom S Assays generate the most accurate and truest measurement of gene-level expression available today.

Keeping biomarker identification across the transcriptome simple and swift, Clariom S Assays for mouse provide you with the coverage you require, the reproducibility you need, and the insights you want to act on your discoveries.

GeneChip™ Mouse Gene 2.0 ST Array (Applied Biosystems™)

The GeneChip™ Mouse Gene 2.0 ST Array is a whole-transcript array that includes probes to measure both messenger (mRNA) and long intergenic non-coding RNA transcripts (lincRNA). This whole-transcript array design provides a complete expression profile of mRNA as well as the intermediary lincRNA transcripts that impact the mRNA expression profile.

Since the design of the GeneChip Mouse Gene 1.0 ST Array, there has been a substantial increase in the structural and functional understanding of the mouse genome. This increase in knowledge includes the identification of a large number of long intergenic lincRNA that have been identified by the research community. In order to provide the research community with a tool that can measure the differential expression of this exciting class of RNA transcripts, we designed the GeneChip Mouse Gene 2.0 ST Array. To supplement the lincRNA data contained in RefSeq, we used sequence and transcript data from lncRNA db (http://lncrnadb.com/).

Comprehensive design
Research over the past 20 years has predominantly focused on protein-coding messenger RNA transcripts and their role in cellular processes, such as disease and development. Recently researchers have identified more that 2,000 transcripts (>200 bases) in the mouse genome with little or no protein coding potential. Only a small fraction of these non-coding RNAs has functional annotations to date. However, there is ample evidence that differential expression of lincRNAs plays an important role in the genesis and progression of disease and that aberrant expression of these molecules have also been linked to cancer. Recent advancements in transcriptome profiling provided evidence of the association of lincRNAs in diverse range of cellular functions:
• Regulation of mRNA transcription
• Regulation of mRNA post-transcriptional modifications
• Occlusion/recruitment of transcription factor binding
• Activation and transportation of transcription factors
• Interaction with accessory proteins
• Guide protein complexes to locations in the genome

Key benefits
• Comprehensive coverage provides the best opportunity to discover interesting biology
   - >28,000 coding transcripts
   - >7,000 non-coding (include ˜2,000) long intergenic non-coding transcripts
• Measure alternative splicing events/transcript variants with probes designed to maximize exon coverage
• Reproducible: Intra-lot correlation coefficient = 0.99

GeneChip™ Mouse Gene 1.0 ST Assay (Applied Biosystems™)

The GeneChip™ Mouse Gene 1.0 ST Array and GeneChip WT PLUS Reagent Kit is a whole-transcript array that includes probes to measure both messenger (mRNA) and long intergenic non-coding RNA transcripts (lincRNA). This whole-transcript array design provides a complete expression profile of mRNA as well as the intermediary lincRNA transcripts that impact the mRNA expression profile.

Since the design of the GeneChip Mouse Gene 1.0 ST Array, there has been a substantial increase in the structural and functional understanding of the mouse genome. This increase in knowledge includes the identification of a large number of long intergenic lincRNA that have been identified by the research community. In order to provide the research community with a tool that can measure the differential expression of this exciting class of RNA transcripts, we designed the GeneChip Mouse Gene 2.0 ST Array (sold separately). To supplement the lincRNA data contained in RefSeq, we used sequence and transcript data from lncRNA db (http://lncrnadb.com/).

Comprehensive Design of Gene Arrays
Research over the past 20 years has predominantly focused on protein-coding messenger RNA transcripts and their role in cellular processes, such as disease and development. Recently researchers have identified more that 2,000 transcripts (>200 bases) in the mouse genome with little or no protein coding potential. Only a small fraction of these non-coding RNAs has functional annotations to date. However, there is ample evidence that differential expression of lincRNAs plays an important role in the genesis and progression of disease and that aberrant expression of these molecules have also been linked to cancer. Recent advancements in transcriptome profiling provided evidence of the association of lincRNAs in diverse range of cellular functions:

• Regulation of mRNA transcription
• Regulation of mRNA post-transcriptional modifications
• Occlusion/recruitment of transcription factor binding
• Activation and transportation of transcription factors
• Interaction with accessory proteins
• Guide protein complexes to locations in the genome

Key Benefits of Gene Arrays
• Comprehensive coverage provides the best opportunity to discover interesting biology
   - >28,000 coding transcripts
   - >7,000 non-coding (include ˜2,000) long intergenic non-coding transcripts
• Measure alternative splicing events/transcript variants with probes designed to maximize exon coverage
• Reproducible: Intra-lot correlation coefficient = 0.99

GeneChip WT PLUS Reagent Kit
The WT PLUS Reagent Kit uses a reverse transcription priming method that primes the entire length of each RNA transcript, including both poly-A and non-poly-A mRNA to provide complete and unbiased coverage of the transcriptome. The kit efficiently generates amplified and biotinylated sense-stranded DNA targets, avoiding loss of specificity due to antisense strand interference.

The WT PLUS Reagent Kit includes the amplification module coupled with GeneChip WT Terminal Labeling and Controls Kit for preparing hybridization-ready targets from 50 ng to 500 ng of total RNA.

Features and benefits:
• A complete target prep kit with proven sensitivity and specificity resulting from an optimized design for WT arrays
• A low sample input requirement of 50 ng. The kit works with a variety of sample types, including fresh-frozen tissues, cell lines, and whole blood
• StreamLined workflow with no ribosomal RNA depletion requirement or a globin reduction step for blood samples
• Opportunities to bundle WT arrays with WT reagents, offering exceptional cost savings
• Convenient single source for ordering and support

Clariom™ D Assay, mouse (Applied Biosystems™)

Clariom™ D assays, mouse were previously known as GeneChip™ Mouse Transcriptome Array 1.0 (MTA 1.0.)
Accelerate your biomarker discovery from deep within the transcriptome with Clariom D assays, the next-generation of transcriptome-level expression profiling tools. Clariom D assays provide a highly detailed view of the transcriptome and offer the fastest path to actionable results. Available for human, mouse, and rat, Clariom D assays allow translational research scientists to generate high-fidelity biomarker signatures quickly and easily. Based on industry-leading microarray technology, the novel Clariom D assay design provides the most intricate transcriptome-wide gene- and exon-level expression profiles, including the ability to detect alternative splicing events of coding and long non-coding (lnc)RNA, in a single three-day experiment.

Expand your potential to discover novel, informative biomarkers.
The number of known transcribed genes has expanded rapidly in recent years providing more sources for actionable biomarkers, such as transcript variants and lncRNA, that can be used for clinical utility and advancing our understanding of disease mechanisms. Such biomarkers can be missed by lengthy, complex, and costly sequencing and targeted expression approaches, leading to irreproducible signatures and wasted time and money.

With full coverage of the transcribed genome including all known coding and non-coding splice variants, compatibility with clinical sample types, and flexible data analysis software, Clariom D assays are the premier tools for translational researchers performing complex expression biomarker discovery studies and wanting the fastest path to robust, clinically relevant, and actionable results.

Get all the data you need.
• Rapidly identify complex disease signatures using >214,000 transcripts sourced from the largest number of public databases, the most comprehensive coverage of the mouse transcriptome.
• Confidently detect genes, exons, and alternative splicing events that give rise to coding RNA and lncRNA isoforms.
• Detect rare and low-expressing transcripts otherwise not detected by common sequencing approaches.
• Go from data to insight in minutes with intuitive, highly visual, free analysis software.

When you have precious samples, get it right the first time.
• Generate robust expression profiles from as little as 100 pg of total RNA–as few as 10 cells.
• Utilize RNA from various sample types including blood, cells, and fresh/fresh-frozen or FFPE tissues.
• Preserve sample integrity and reduce data variability with an assay that does not require a globin or rRNA removal step.

Clariom D solutions are available in a single sample (cartridge array) format for use on the GeneChip™ 3000 instrument system and include reagents and fast, simple Transcriptome Analysis Console (TAC) software to analyze and visualize global expression patterns of genes, exons, pathways, and alternative splicing events.

Get the coverage you require, the reproducibility you need, and the insights you want to act on your discoveries.

Clariom™ S Pico Assay HT, mouse (Applied Biosystems™)

Obtain a gene-level view of the mouse transcriptome with the Clariom S Pico Assays HT for mouse. The Clariom S Pico Assays, mouse serve as a next generation transcriptome-wide gene-level expression profiling tool, which allow for the fastest, simplest, and most scalable path to generating actionable results. Based on industry-leading microarray technology, the novel mouse HT Clariom S Assay design provides extensive coverage of all known well-annotated genes, compatibility with clinical sample types, scalable formats, and flexible data analysis software. Clariom S Pico Assays HT are the tools of choice to find expression biomarkers with known function as quickly, easily, and cost-effectively as possible.

Find answers, move on
Although the number of known transcribed genes has expanded rapidly in recent years, knowledge of the function of each gene is still evolving. Many genes and transcripts found in databases are poorly annotated or unannotated, which can complicate and prolong data analysis and interpretation. mouse HT Clariom S Pico Assays focus on well-annotated genes, providing researchers with the ability to perform gene-level expression profiling studies and to quickly assess changes in key genes and pathways. With less time required for data analysis, Clariom S Pico Assays HT for mouse help researchers reach conclusions more rapidly.

Simple, swift biomarker discovery
• Accurately measure gene-level expression from >20,000 well-annotated genes to get to answers quickly.
• Choose a format that suits your throughput needs, processing from 1 to 192 samples a day.
• Go from data to insight in minutes with intuitive, highly visual, free analysis software designed for the biologist.

When you have precious samples, get it right the first time
• Generate robust expression profiles from as little as 100 pg of total RNA–as few as 10 cells.
• Utilize RNA from various sample types including blood, cells, and fresh/fresh-frozen or FFPE tissues.
• Preserve sample integrity and reduce data variability with an assay that does not require a globin or rRNA removal step.
• Save time and money with fully automated sample preparation options.

Clariom S solutions are available formats for single-sample (cartridge array) processing on the GeneChip™ 3000 instrument system and high-throughput automated processing (plate array) on the GeneTitan™ HT Microarray System, offering the flexibility to accommodate both small and large cohort studies. The complete solution comes with reagents and fast, simple Transcriptome Analysis Console (TAC) software to analyze and visualize global expression patterns of genes, pathways, and network interactions in minutes.

Get the truest level of gene-level expression
To generate robust gene-level expression, mouse HT Clariom S Assays detect only the exons present in all known transcript isoforms expressed from a single gene locus-constitutive exons. This differs from other gene-level array technologies and shallow RNA-Seq, which provide either a biased view of gene expression or data that are complicated by variation in expression of transcript variants. By detecting only constitutive exons throughout the length of each known gene, mouse HT Clariom S Assays generate the most accurate and truest measurement of gene-level expression available today.

Keeping biomarker identification across the transcriptome simple and swift, Clariom S Pico Assays HT for mouse provide you with the coverage you require, the reproducibility you need, and the insights you want to act on your discoveries.

Clariom™ D Pico Assay, mouse (Applied Biosystems™)

Clariom™ D assays, mouse were previously known as GeneChip™ Mouse Transcriptome Array 1.0 (MTA 1.0.)
Accelerate your biomarker discovery from deep within the transcriptome with Clariom D assays, the next-generation of transcriptome-level expression profiling tools. Clariom D assays provide a highly detailed view of the transcriptome and offer the fastest path to actionable results. Available for human, mouse, and rat, Clariom D assays allow translational research scientists to generate high-fidelity biomarker signatures quickly and easily. Based on industry-leading microarray technology, the novel Clariom D assay design provides the most intricate transcriptome-wide gene- and exon-level expression profiles, including the ability to detect alternative splicing events of coding and long non-coding (lnc)RNA, in a single three-day experiment.

Expand your potential to discover novel, informative biomarkers.
The number of known transcribed genes has expanded rapidly in recent years providing more sources for actionable biomarkers, such as transcript variants and lncRNA, that can be used for clinical utility and advancing our understanding of disease mechanisms. Such biomarkers can be missed by lengthy, complex, and costly sequencing and targeted expression approaches, leading to irreproducible signatures and wasted time and money.

With full coverage of the transcribed genome including all known coding and non-coding splice variants, compatibility with clinical sample types, and flexible data analysis software, Clariom D assays are the premier tools for translational researchers performing complex expression biomarker discovery studies and wanting the fastest path to robust, clinically relevant, and actionable results.

Get all the data you need.
• Rapidly identify complex disease signatures using >214,000 transcripts sourced from the largest number of public databases, the most comprehensive coverage of the mouse transcriptome.
• Confidently detect genes, exons, and alternative splicing events that give rise to coding RNA and lncRNA isoforms.
• Detect rare and low-expressing transcripts otherwise not detected by common sequencing approaches.
• Go from data to insight in minutes with intuitive, highly visual, free analysis software.

When you have precious samples, get it right the first time.
• Generate robust expression profiles from as little as 100 pg of total RNA–as few as 10 cells.
• Utilize RNA from various sample types including blood, cells, and fresh/fresh-frozen or FFPE tissues.
• Preserve sample integrity and reduce data variability with an assay that does not require a globin or rRNA removal step.

Clariom D solutions are available in a single sample (cartridge array) format for use on the GeneChip™ 3000 instrument system and include reagents and fast, simple Transcriptome Analysis Console (TAC) software to analyze and visualize global expression patterns of genes, exons, pathways, and alternative splicing events.

Get the coverage you require, the reproducibility you need, and the insights you want to act on your discoveries.

GeneChip™ Mouse Gene 2.1 ST Array Strip (Applied Biosystems™)

The Mouse Gene 2.1 ST Array Strips enable you to perform low- and medium-throughput expression analysis with minimum hands-on time.

Comprehensive design
Keeping pace with the research community's understanding of the transcriptome, we have designed whole-transcript arrays that include probes to measure both messenger (mRNA) and long intergenic non-coding RNA transcripts (lincRNA). These whole-transcript array designs provide a complete expression profile of mRNA as well as the intermediary lincRNA transcripts that impact the mRNA expression profile.

Research over the past 20 years has predominantly focused on protein coding messenger RNA transcripts and their role in cellular processes, such as disease and development. Recently researchers have identified more that 2,000 transcripts (>200 bases) in the mouse genome with little or no protein coding potential. Only a small fraction of these non-coding RNAs has functional annotations to date. However, there is ample evidence that differential expression of lincRNAs plays an important role in the genesis and progression of disease and that aberrant expression of these molecules have also been linked to cancer. Recent advancements in transcriptome profiling provided evidence of the association of lincRNAs in diverse range of cellular functions:• Regulation of mRNA transcription
• Regulation of mRNA post-transcriptional modifications
• Occlusion/recruitment of transcription factor binding
• Activation and transportation of transcription factors
• Interaction with accessory proteins
• Guide protein complexes to locations in the genome

Key benefits
• Comprehensive coverage provides the best opportunity to discover interesting biology
• >28,000 coding transcripts
• >7,000 non-coding (include ˜2,000) long intergenic non-coding transcripts
• Measure alternative splicing events/transcript variants with probes designed to maximize exon coverage
• Reproducible: Intra-lot correlation coefficient =0.99

Content profile
Since the design of the Mouse Gene 1.1 ST Array Strip (sold separately), there has been a substantial increase in the structural and functional understanding of the mouse genome. This increase in knowledge includes the identification of a large number of long intergenic lincRNA that have been identified by the research community. In order to provide the research community with a tool that can measure the differential expression of this exciting class of RNA transcripts, we have designed the Mouse Gene 2.1 ST Array Strip. To supplement the lincRNA data contained in RefSeq, we use sequence and transcript data from lncRNA db (http://lncrnadb.com/).

GeneChip™ Mouse Genome 430A 2.0 Array (Applied Biosystems™)

The GeneChip™ Mouse Genome 430A 2.0 Array is a single array representing approximately 14,000 well-characterized mouse genes.

The GeneChip™ Mouse Genome 430A 2.0 Array is a single array representing approximately 14,000 well-characterized mouse genes that can be used to explore biology and disease processes. New, reduced feature size means that you can use smaller sample volumes than the previous Mouse Expression Array 430A without compromising performance.

•Provides coverage of well-substantiated genes in the transcribed mouse genome on a single array
•Analyzes the expression level of approximately 14,000 well-characterized mouse genes
•The Power of the Probe Set - offering multiple independent measurements for each transcript delivering the greatest accuracy and reproducibility of any microarray platform
•All probe sets represented on the GeneChip™ Mouse Expression Array 430A are included on the GeneChip Mouse Genome 430A 2.0 Array

Array Profile

Sequences used in the design of the array were selected from GenBank™, dbEST, and RefSeq. The sequence clusters were created from the UniGene database (Build 107, June 2002) and then refined by analysis and comparison with the publicly available draft assembly of the mouse genome from the Whitehead Institute for Genome Research (MGSC, April 2002).

Specificity: Connexin 26, 32, 43

Reactivity: Human, Mouse, Rat

Applications: See product data sheet for recommended Usage for each antibody.

GeneChip™ Mouse Gene 1.1 ST Array Strip (Applied Biosystems™)

The Mouse Gene 1.1 ST Array Strips enable you to perform low- and medium-throughput expression analysis with minimum hands-on time.

Comprehensive design
Keeping pace with the research community's understanding of the transcriptome, we have designed whole-transcript arrays that include probes to measure both messenger (mRNA) and long intergenic non-coding RNA transcripts (lincRNA). These whole-transcript array designs provide a complete expression profile of mRNA as well as the intermediary lincRNA transcripts that impact the mRNA expression profile.

Research over the past 20 years has predominantly focused on protein coding messenger RNA transcripts and their role in cellular processes, such as disease and development. Recently researchers have identified more that 2,000 transcripts (>200 bases) in the mouse genome with little or no protein coding potential. Only a small fraction of these non-coding RNAs has functional annotations to date. However, there is ample evidence that differential expression of lincRNAs plays an important role in the genesis and progression of disease and that aberrant expression of these molecules have also been linked to cancer. Recent advancements in transcriptome profiling provided evidence of the association of lincRNAs in diverse range of cellular functions:

• Regulation of mRNA transcription
• Regulation of mRNA post-transcriptional modifications
• Occlusion/recruitment of transcription factor binding
• Activation and transportation of transcription factors
• Interaction with accessory proteins
• Guide protein complexes to locations in the genome

Key benefits
• Comprehensive coverage provides the best opportunity to discover interesting biology
• >28,000 coding transcripts
• >7,000 non-coding (include ˜2,000) long intergenic non-coding transcripts
• Measure alternative splicing events/transcript variants with probes designed to maximize exon coverage
• Reproducible: Intra-lot correlation coefficient =0.99

Content profile
Since the design of the Mouse Gene 1.1 ST Array Strip, there has been a substantial increase in the structural and functional understanding of the mouse genome. This increase in knowledge includes the identification of a large number of long intergenic lincRNA that have been identified by the research community. In order to provide the research community with a tool that can measure the differential expression of this exciting class of RNA transcripts, we have designed the Mouse Gene 2.1 ST Array Strip (sold separately). To supplement the lincRNA data contained in RefSeq, we use sequence and transcript data from lncRNA db (http://lncrnadb.com/).

GeneChip™ MG-430 PM Array Strip (Applied Biosystems™)

Proven performance from the industry standard
The MG-430 PM Array Strip enables expression profiling of four samples at a time using the same industry-standard content as the GeneChip™ Mouse Genome 430 2.0 Array*.

The MG-430 PM Array Strip enables you to:
• Measure gene expression of more than 39,000 transcripts on a single array
• Get accurate and reproducible data by using multiple independent measurements for each transcript

Key Benefits
• Enables increased productivity and efficiency through parallel processing—Process four samples on a single array strip
• Same industry-leading performance and content as the Mouse Genome 430 2.0 Array in cartridge format—Strong signal and fold change correlation to previous designs
• Multiple independent measurements per transcript for increased confidence in your results—Interrogates more sequence than a single probe measurement
• Conveniently packaged—All processing trays included

Content Profile
Sequences used in the design of the array were selected from GenBank™, dbEST and RefSeq. The sequence clusters were created from the UniGene database (Build 107) and refined by analysis and comparison with the publicly available draft assembly of the mouse genome from the Whitehead Institute Center for Genome Research.

* The MG-430 PM Array Strip only retains perfect match (PM) probes from the cartridge design. Mismatch (MM) probes were removed.