• object(anvilstl\commercio\models\Category)#394 (15) { ["featured_image_urls"]=> array(3) { ["small"]=> string(96) "https://s3.amazonaws.com/commercio/goldbio-2018/collection/small/Dna-Protien-Electrophoresis.jpg" ["medium"]=> string(97) "https://s3.amazonaws.com/commercio/goldbio-2018/collection/medium/Dna-Protien-Electrophoresis.jpg" ["large"]=> string(96) "https://s3.amazonaws.com/commercio/goldbio-2018/collection/large/Dna-Protien-Electrophoresis.jpg" } ["featured_image"]=> array(3) { ["small"]=> string(96) "https://s3.amazonaws.com/commercio/goldbio-2018/collection/small/Dna-Protien-Electrophoresis.jpg" ["medium"]=> string(97) "https://s3.amazonaws.com/commercio/goldbio-2018/collection/medium/Dna-Protien-Electrophoresis.jpg" ["large"]=> string(96) "https://s3.amazonaws.com/commercio/goldbio-2018/collection/large/Dna-Protien-Electrophoresis.jpg" } ["banner_image_urls"]=> array(0) { } ["productCount"]=> NULL ["_attributes":"yii\db\BaseActiveRecord":private]=> array(23) { ["id"]=> int(198) ["root"]=> int(393) ["lft"]=> int(40) ["rgt"]=> int(45) ["level"]=> int(1) ["name"]=> string(35) "DNA & Protein Electrophoresis (old)" ["url_name"]=> string(27) "dna-protein-electrophoresis" ["title"]=> NULL ["short_description"]=> string(0) "" ["long_description"]=> string(439) "

    Whether you need to analyze PCR results or produce a large quantity of purified proteins, GoldBio offers the tools necessary for DNA and protein techniques. GoldBio’s inventory includes a quality selection of agaroses, ready-to-use loading dyes and buffers, DNA and protein ladders, Coomassie stains, and more. With GoldBio’s low prices and first-rate products, we have everything needed to put your research into action.

    " ["hide"]=> int(1) ["third_party_id"]=> NULL ["featured_image_id"]=> int(30) ["banner_image_id"]=> int(0) ["meta_description"]=> string(150) "DNA and protein tools are vital to molecular research. GoldBio offers ready-to-use ladders, lysis buffers, Coomassie stains and other needed products." ["meta_keywords"]=> string(0) "" ["root_sort"]=> int(9) ["type"]=> string(7) "product" ["condition_type"]=> int(1) ["condition_match_type"]=> int(1) ["sort_type"]=> int(1) ["items_per_page"]=> int(25) ["color"]=> string(22) "rgba(221, 187, 121, 1)" } ["_oldAttributes":"yii\db\BaseActiveRecord":private]=> array(23) { ["id"]=> int(198) ["root"]=> int(393) ["lft"]=> int(40) ["rgt"]=> int(45) ["level"]=> int(1) ["name"]=> string(35) "DNA & Protein Electrophoresis (old)" ["url_name"]=> string(27) "dna-protein-electrophoresis" ["title"]=> NULL ["short_description"]=> string(0) "" ["long_description"]=> string(439) "

    Whether you need to analyze PCR results or produce a large quantity of purified proteins, GoldBio offers the tools necessary for DNA and protein techniques. GoldBio’s inventory includes a quality selection of agaroses, ready-to-use loading dyes and buffers, DNA and protein ladders, Coomassie stains, and more. With GoldBio’s low prices and first-rate products, we have everything needed to put your research into action.

    " ["hide"]=> int(1) ["third_party_id"]=> NULL ["featured_image_id"]=> int(30) ["banner_image_id"]=> int(0) ["meta_description"]=> string(150) "DNA and protein tools are vital to molecular research. GoldBio offers ready-to-use ladders, lysis buffers, Coomassie stains and other needed products." ["meta_keywords"]=> string(0) "" ["root_sort"]=> int(9) ["type"]=> string(7) "product" ["condition_type"]=> int(1) ["condition_match_type"]=> int(1) ["sort_type"]=> int(1) ["items_per_page"]=> int(25) ["color"]=> string(22) "rgba(221, 187, 121, 1)" } ["_related":"yii\db\BaseActiveRecord":private]=> array(0) { } ["_relationsDependencies":"yii\db\BaseActiveRecord":private]=> array(0) { } ["_errors":"yii\base\Model":private]=> NULL ["_validators":"yii\base\Model":private]=> NULL ["_scenario":"yii\base\Model":private]=> string(7) "default" ["_events":"yii\base\Component":private]=> array(6) { ["beforeInsert"]=> array(1) { [0]=> array(2) { [0]=> array(2) { [0]=> object(creocoder\nestedsets\NestedSetsBehavior)#397 (8) { ["treeAttribute"]=> string(4) "root" ["leftAttribute"]=> string(3) "lft" ["rightAttribute"]=> string(3) "rgt" ["depthAttribute"]=> string(5) "level" ["operation":protected]=> NULL ["node":protected]=> NULL ["owner"]=> *RECURSION* ["_attachedEvents":"yii\base\Behavior":private]=> array(6) { ["beforeInsert"]=> string(12) "beforeInsert" ["afterInsert"]=> string(11) "afterInsert" ["beforeUpdate"]=> string(12) "beforeUpdate" ["afterUpdate"]=> string(11) "afterUpdate" ["beforeDelete"]=> string(12) "beforeDelete" ["afterDelete"]=> string(11) "afterDelete" } } [1]=> string(12) "beforeInsert" } [1]=> NULL } } ["afterInsert"]=> array(1) { [0]=> array(2) { [0]=> array(2) { [0]=> object(creocoder\nestedsets\NestedSetsBehavior)#397 (8) { ["treeAttribute"]=> string(4) "root" ["leftAttribute"]=> string(3) "lft" ["rightAttribute"]=> string(3) "rgt" ["depthAttribute"]=> string(5) "level" ["operation":protected]=> NULL ["node":protected]=> NULL ["owner"]=> *RECURSION* ["_attachedEvents":"yii\base\Behavior":private]=> array(6) { ["beforeInsert"]=> string(12) "beforeInsert" ["afterInsert"]=> string(11) "afterInsert" ["beforeUpdate"]=> string(12) "beforeUpdate" ["afterUpdate"]=> string(11) "afterUpdate" ["beforeDelete"]=> string(12) "beforeDelete" ["afterDelete"]=> string(11) "afterDelete" } } [1]=> string(11) "afterInsert" } [1]=> NULL } } ["beforeUpdate"]=> array(1) { [0]=> array(2) { [0]=> array(2) { [0]=> object(creocoder\nestedsets\NestedSetsBehavior)#397 (8) { ["treeAttribute"]=> string(4) "root" ["leftAttribute"]=> string(3) "lft" ["rightAttribute"]=> string(3) "rgt" ["depthAttribute"]=> string(5) "level" ["operation":protected]=> NULL ["node":protected]=> NULL ["owner"]=> *RECURSION* ["_attachedEvents":"yii\base\Behavior":private]=> array(6) { ["beforeInsert"]=> string(12) "beforeInsert" ["afterInsert"]=> string(11) "afterInsert" ["beforeUpdate"]=> string(12) "beforeUpdate" ["afterUpdate"]=> string(11) "afterUpdate" ["beforeDelete"]=> string(12) "beforeDelete" ["afterDelete"]=> string(11) "afterDelete" } } [1]=> string(12) "beforeUpdate" } [1]=> NULL } } ["afterUpdate"]=> array(1) { [0]=> array(2) { [0]=> array(2) { [0]=> object(creocoder\nestedsets\NestedSetsBehavior)#397 (8) { ["treeAttribute"]=> string(4) "root" ["leftAttribute"]=> string(3) "lft" ["rightAttribute"]=> string(3) "rgt" ["depthAttribute"]=> string(5) "level" ["operation":protected]=> NULL ["node":protected]=> NULL ["owner"]=> *RECURSION* ["_attachedEvents":"yii\base\Behavior":private]=> array(6) { ["beforeInsert"]=> string(12) "beforeInsert" ["afterInsert"]=> string(11) "afterInsert" ["beforeUpdate"]=> string(12) "beforeUpdate" ["afterUpdate"]=> string(11) "afterUpdate" ["beforeDelete"]=> string(12) "beforeDelete" ["afterDelete"]=> string(11) "afterDelete" } } [1]=> string(11) "afterUpdate" } [1]=> NULL } } ["beforeDelete"]=> array(1) { [0]=> array(2) { [0]=> array(2) { [0]=> object(creocoder\nestedsets\NestedSetsBehavior)#397 (8) { ["treeAttribute"]=> string(4) "root" ["leftAttribute"]=> string(3) "lft" ["rightAttribute"]=> string(3) "rgt" ["depthAttribute"]=> string(5) "level" ["operation":protected]=> NULL ["node":protected]=> NULL ["owner"]=> *RECURSION* ["_attachedEvents":"yii\base\Behavior":private]=> array(6) { ["beforeInsert"]=> string(12) "beforeInsert" ["afterInsert"]=> string(11) "afterInsert" ["beforeUpdate"]=> string(12) "beforeUpdate" ["afterUpdate"]=> string(11) "afterUpdate" ["beforeDelete"]=> string(12) "beforeDelete" ["afterDelete"]=> string(11) "afterDelete" } } [1]=> string(12) "beforeDelete" } [1]=> NULL } } ["afterDelete"]=> array(1) { [0]=> array(2) { [0]=> array(2) { [0]=> object(creocoder\nestedsets\NestedSetsBehavior)#397 (8) { ["treeAttribute"]=> string(4) "root" ["leftAttribute"]=> string(3) "lft" ["rightAttribute"]=> string(3) "rgt" ["depthAttribute"]=> string(5) "level" ["operation":protected]=> NULL ["node":protected]=> NULL ["owner"]=> *RECURSION* ["_attachedEvents":"yii\base\Behavior":private]=> array(6) { ["beforeInsert"]=> string(12) "beforeInsert" ["afterInsert"]=> string(11) "afterInsert" ["beforeUpdate"]=> string(12) "beforeUpdate" ["afterUpdate"]=> string(11) "afterUpdate" ["beforeDelete"]=> string(12) "beforeDelete" ["afterDelete"]=> string(11) "afterDelete" } } [1]=> string(11) "afterDelete" } [1]=> NULL } } } ["_eventWildcards":"yii\base\Component":private]=> array(0) { } ["_behaviors":"yii\base\Component":private]=> array(1) { ["tree"]=> object(creocoder\nestedsets\NestedSetsBehavior)#397 (8) { ["treeAttribute"]=> string(4) "root" ["leftAttribute"]=> string(3) "lft" ["rightAttribute"]=> string(3) "rgt" ["depthAttribute"]=> string(5) "level" ["operation":protected]=> NULL ["node":protected]=> NULL ["owner"]=> *RECURSION* ["_attachedEvents":"yii\base\Behavior":private]=> array(6) { ["beforeInsert"]=> string(12) "beforeInsert" ["afterInsert"]=> string(11) "afterInsert" ["beforeUpdate"]=> string(12) "beforeUpdate" ["afterUpdate"]=> string(11) "afterUpdate" ["beforeDelete"]=> string(12) "beforeDelete" ["afterDelete"]=> string(11) "afterDelete" } } } ["__fieldGroups":protected]=> array(0) { } }
  • object(anvilstl\commercio\models\Category)#421 (15) { ["featured_image_urls"]=> array(0) { } ["featured_image"]=> array(0) { } ["banner_image_urls"]=> array(0) { } ["productCount"]=> NULL ["_attributes":"yii\db\BaseActiveRecord":private]=> array(23) { ["id"]=> int(353) ["root"]=> int(1) ["lft"]=> int(236) ["rgt"]=> int(237) ["level"]=> int(3) ["name"]=> string(12) "PCR Products" ["url_name"]=> string(12) "pcr-products" ["title"]=> NULL ["short_description"]=> string(0) "" ["long_description"]=> string(755) "PCR (Polymerase Chain Reaction) is one of the most valuable, if not THE most valuable, biochemical techniques used in every molecular biology and biochemistry lab. It is the hallmark of our scientific molecular era, utilized for copying, sequencing or quantifying DNA or RNA. PCR is the process of using thermocycling with heat resistant enzymes to quickly and reliably copy strands of DNA. High quality PCR results save hours of needless replication and frustration and high quality ingredients are essential for producing those results. GoldBio offers the best quality ingredients for your PCR in order to get the most reliable, crisp and clear bands on your gel for use in downstream cloning or if you just need to quickly sequence the PCR strand." ["hide"]=> int(0) ["third_party_id"]=> NULL ["featured_image_id"]=> int(0) ["banner_image_id"]=> int(0) ["meta_description"]=> string(0) "" ["meta_keywords"]=> string(0) "" ["root_sort"]=> int(0) ["type"]=> string(7) "product" ["condition_type"]=> int(1) ["condition_match_type"]=> int(1) ["sort_type"]=> int(1) ["items_per_page"]=> int(25) ["color"]=> NULL } ["_oldAttributes":"yii\db\BaseActiveRecord":private]=> array(23) { ["id"]=> int(353) ["root"]=> int(1) ["lft"]=> int(236) ["rgt"]=> int(237) ["level"]=> int(3) ["name"]=> string(12) "PCR Products" ["url_name"]=> string(12) "pcr-products" ["title"]=> NULL ["short_description"]=> string(0) "" ["long_description"]=> string(755) "PCR (Polymerase Chain Reaction) is one of the most valuable, if not THE most valuable, biochemical techniques used in every molecular biology and biochemistry lab. It is the hallmark of our scientific molecular era, utilized for copying, sequencing or quantifying DNA or RNA. PCR is the process of using thermocycling with heat resistant enzymes to quickly and reliably copy strands of DNA. High quality PCR results save hours of needless replication and frustration and high quality ingredients are essential for producing those results. GoldBio offers the best quality ingredients for your PCR in order to get the most reliable, crisp and clear bands on your gel for use in downstream cloning or if you just need to quickly sequence the PCR strand." ["hide"]=> int(0) ["third_party_id"]=> NULL ["featured_image_id"]=> int(0) ["banner_image_id"]=> int(0) ["meta_description"]=> string(0) "" ["meta_keywords"]=> string(0) "" ["root_sort"]=> int(0) ["type"]=> string(7) "product" ["condition_type"]=> int(1) ["condition_match_type"]=> int(1) ["sort_type"]=> int(1) ["items_per_page"]=> int(25) ["color"]=> NULL } ["_related":"yii\db\BaseActiveRecord":private]=> array(0) { } ["_relationsDependencies":"yii\db\BaseActiveRecord":private]=> array(0) { } ["_errors":"yii\base\Model":private]=> NULL ["_validators":"yii\base\Model":private]=> NULL ["_scenario":"yii\base\Model":private]=> string(7) "default" ["_events":"yii\base\Component":private]=> array(6) { ["beforeInsert"]=> array(1) { [0]=> array(2) { [0]=> array(2) { [0]=> object(creocoder\nestedsets\NestedSetsBehavior)#422 (8) { ["treeAttribute"]=> string(4) "root" ["leftAttribute"]=> string(3) "lft" ["rightAttribute"]=> string(3) "rgt" ["depthAttribute"]=> string(5) "level" ["operation":protected]=> NULL ["node":protected]=> NULL ["owner"]=> *RECURSION* ["_attachedEvents":"yii\base\Behavior":private]=> array(6) { ["beforeInsert"]=> string(12) "beforeInsert" ["afterInsert"]=> string(11) "afterInsert" ["beforeUpdate"]=> string(12) "beforeUpdate" ["afterUpdate"]=> string(11) "afterUpdate" ["beforeDelete"]=> string(12) "beforeDelete" ["afterDelete"]=> string(11) "afterDelete" } } [1]=> string(12) "beforeInsert" } [1]=> NULL } } ["afterInsert"]=> array(1) { [0]=> array(2) { [0]=> array(2) { [0]=> object(creocoder\nestedsets\NestedSetsBehavior)#422 (8) { ["treeAttribute"]=> string(4) "root" ["leftAttribute"]=> string(3) "lft" ["rightAttribute"]=> string(3) "rgt" ["depthAttribute"]=> string(5) "level" ["operation":protected]=> NULL ["node":protected]=> NULL ["owner"]=> *RECURSION* ["_attachedEvents":"yii\base\Behavior":private]=> array(6) { ["beforeInsert"]=> string(12) "beforeInsert" ["afterInsert"]=> string(11) "afterInsert" ["beforeUpdate"]=> string(12) "beforeUpdate" ["afterUpdate"]=> string(11) "afterUpdate" ["beforeDelete"]=> string(12) "beforeDelete" ["afterDelete"]=> string(11) "afterDelete" } } [1]=> string(11) "afterInsert" } [1]=> NULL } } ["beforeUpdate"]=> array(1) { [0]=> array(2) { [0]=> array(2) { [0]=> object(creocoder\nestedsets\NestedSetsBehavior)#422 (8) { ["treeAttribute"]=> string(4) "root" ["leftAttribute"]=> string(3) "lft" ["rightAttribute"]=> string(3) "rgt" ["depthAttribute"]=> string(5) "level" ["operation":protected]=> NULL ["node":protected]=> NULL ["owner"]=> *RECURSION* ["_attachedEvents":"yii\base\Behavior":private]=> array(6) { ["beforeInsert"]=> string(12) "beforeInsert" ["afterInsert"]=> string(11) "afterInsert" ["beforeUpdate"]=> string(12) "beforeUpdate" ["afterUpdate"]=> string(11) "afterUpdate" ["beforeDelete"]=> string(12) "beforeDelete" ["afterDelete"]=> string(11) "afterDelete" } } [1]=> string(12) "beforeUpdate" } [1]=> NULL } } ["afterUpdate"]=> array(1) { [0]=> array(2) { [0]=> array(2) { [0]=> object(creocoder\nestedsets\NestedSetsBehavior)#422 (8) { ["treeAttribute"]=> string(4) "root" ["leftAttribute"]=> string(3) "lft" ["rightAttribute"]=> string(3) "rgt" ["depthAttribute"]=> string(5) "level" ["operation":protected]=> NULL ["node":protected]=> NULL ["owner"]=> *RECURSION* ["_attachedEvents":"yii\base\Behavior":private]=> array(6) { ["beforeInsert"]=> string(12) "beforeInsert" ["afterInsert"]=> string(11) "afterInsert" ["beforeUpdate"]=> string(12) "beforeUpdate" ["afterUpdate"]=> string(11) "afterUpdate" ["beforeDelete"]=> string(12) "beforeDelete" ["afterDelete"]=> string(11) "afterDelete" } } [1]=> string(11) "afterUpdate" } [1]=> NULL } } ["beforeDelete"]=> array(1) { [0]=> array(2) { [0]=> array(2) { [0]=> object(creocoder\nestedsets\NestedSetsBehavior)#422 (8) { ["treeAttribute"]=> string(4) "root" ["leftAttribute"]=> string(3) "lft" ["rightAttribute"]=> string(3) "rgt" ["depthAttribute"]=> string(5) "level" ["operation":protected]=> NULL ["node":protected]=> NULL ["owner"]=> *RECURSION* ["_attachedEvents":"yii\base\Behavior":private]=> array(6) { ["beforeInsert"]=> string(12) "beforeInsert" ["afterInsert"]=> string(11) "afterInsert" ["beforeUpdate"]=> string(12) "beforeUpdate" ["afterUpdate"]=> string(11) "afterUpdate" ["beforeDelete"]=> string(12) "beforeDelete" ["afterDelete"]=> string(11) "afterDelete" } } [1]=> string(12) "beforeDelete" } [1]=> NULL } } ["afterDelete"]=> array(1) { [0]=> array(2) { [0]=> array(2) { [0]=> object(creocoder\nestedsets\NestedSetsBehavior)#422 (8) { ["treeAttribute"]=> string(4) "root" ["leftAttribute"]=> string(3) "lft" ["rightAttribute"]=> string(3) "rgt" ["depthAttribute"]=> string(5) "level" ["operation":protected]=> NULL ["node":protected]=> NULL ["owner"]=> *RECURSION* ["_attachedEvents":"yii\base\Behavior":private]=> array(6) { ["beforeInsert"]=> string(12) "beforeInsert" ["afterInsert"]=> string(11) "afterInsert" ["beforeUpdate"]=> string(12) "beforeUpdate" ["afterUpdate"]=> string(11) "afterUpdate" ["beforeDelete"]=> string(12) "beforeDelete" ["afterDelete"]=> string(11) "afterDelete" } } [1]=> string(11) "afterDelete" } [1]=> NULL } } } ["_eventWildcards":"yii\base\Component":private]=> array(0) { } ["_behaviors":"yii\base\Component":private]=> array(1) { ["tree"]=> object(creocoder\nestedsets\NestedSetsBehavior)#422 (8) { ["treeAttribute"]=> string(4) "root" ["leftAttribute"]=> string(3) "lft" ["rightAttribute"]=> string(3) "rgt" ["depthAttribute"]=> string(5) "level" ["operation":protected]=> NULL ["node":protected]=> NULL ["owner"]=> *RECURSION* ["_attachedEvents":"yii\base\Behavior":private]=> array(6) { ["beforeInsert"]=> string(12) "beforeInsert" ["afterInsert"]=> string(11) "afterInsert" ["beforeUpdate"]=> string(12) "beforeUpdate" ["afterUpdate"]=> string(11) "afterUpdate" ["beforeDelete"]=> string(12) "beforeDelete" ["afterDelete"]=> string(11) "afterDelete" } } } ["__fieldGroups":protected]=> array(0) { } }
  • Reverse Transcriptase

    Product Description

    GoldBio's Reverse Transcriptase (RT) is a recombinant Moloney Murine Leukemia Virus (MMLV) reverse transcriptase with reduced RNase H activity. It is highly efficient at producing full-length cDNA from long RNA templates.

    Our RT is an RNA-directed DNA polymerase which lacks 3´ → 5´ exonuclease activity and is capable of producing cDNA from as little as 50 pg of total RNA for real-time RT-PCR analysis and other applications.

    Product Includes

    • Reverse Transcriptase
    • 10x RT Reaction Buffer

    1X MMLV Reverse Transcriptase Reaction Buffer

    • 50mM Tris-HCl, 75mM KCl, 3mM MgCl2, 10mM DTT, pH 8.3 at 25°C

    Storage Buffer

    • 50mM Tris-HCl, 50mM KCl, 1mM DTT, 0.1mM EDTA, 50% Glycerol, pH 7.5 at 25ºC

    Source: The gene encoding recombinant MMLV Reverse Transcriptase with mutated RNase H domain is expressed in E. coli.

    Unit Definition: One unit is defined as the amount of enzyme required to incorporate 1 nmol of dTTP into acid insoluble material in 10 minutes at 37°C using poly r(A)/oligo (dT) as a substrate.

    Heat Inactivation: 65°C for 20 minutes.

    Storage/Handling: Store at -20°C.
    Product may be shipped on blue ice.

    View Sizes & Pricing

    Catalog Number:
    {{ currentSelection && currentSelection.sku ? currentSelection.sku : '...' }}
    CAS Number:
    {{ casNumber && casNumber.value ? casNumber.value : '...' }}
    Size:
    Quantity:
    On Sale:
    ${{ currentSelection.price }} ${{ currentSelection.sale_price }}
    Shipping:
    Next day shipping required.

    Join our list to receive promos and articles.

    Join Now