Structured Review

Qiagen rneasy plant mini kit
Rneasy Plant Mini Kit, supplied by Qiagen, used in various techniques. Bioz Stars score: 99/100, based on 1756 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/rneasy plant mini kit/product/Qiagen
Average 99 stars, based on 1756 article reviews
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rneasy plant mini kit - by Bioz Stars, 2020-05
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Isolation:

Article Title: Arabidopsis RNA processing factor SERRATE regulates the transcription of intronless genes
Article Snippet: .. Total RNA was isolated using the RNeasy Plant Mini Kit (Qiagen) according to the manufacturer’s instructions. mRNA was isolated using the NEBnext poly(A) mRNA Magnetic Isolation Module (New England Biolabs, #7490), followed by library preparation using ScriptSeq v2 RNA-Seq Library Preparation Kit (Illumina). .. Total RNA was isolated using the RNeasy Plant Mini Kit (Qiagen) according to the manufacturer’s instructions. mRNA was isolated using the NEBnext poly(A) mRNA Magnetic Isolation Module (New England Biolabs, #7490), followed by library preparation using ScriptSeq v2 RNA-Seq Library Preparation Kit (Illumina).

RNA Sequencing Assay:

Article Title: Arabidopsis RNA processing factor SERRATE regulates the transcription of intronless genes
Article Snippet: .. Total RNA was isolated using the RNeasy Plant Mini Kit (Qiagen) according to the manufacturer’s instructions. mRNA was isolated using the NEBnext poly(A) mRNA Magnetic Isolation Module (New England Biolabs, #7490), followed by library preparation using ScriptSeq v2 RNA-Seq Library Preparation Kit (Illumina). .. Total RNA was isolated using the RNeasy Plant Mini Kit (Qiagen) according to the manufacturer’s instructions. mRNA was isolated using the NEBnext poly(A) mRNA Magnetic Isolation Module (New England Biolabs, #7490), followed by library preparation using ScriptSeq v2 RNA-Seq Library Preparation Kit (Illumina).

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    Qiagen rneasy plant kits
    Both yield and quality are variable within and across kit based methods, yet the modified CTAB protocol produces consistent high yield and quality in stored ‘d’Anjou tissues. a RINs are higher and more consistent across methods for stored ‘d’Anjou’ peel than cortex. b Excluding protocols with degraded RNA, yields are variable across kits with the highest yield using the CTAB protocol. c Excluding protocols with degraded RNA, A 260/280− ratios were also variable across methods, with CTAB again producing the cleanest RNA. Error bars are standard error of the mean, where applicable. Some data are missing due to very low yield or severely degraded individual samples. QRP RLC Qiagen <t>RNeasy</t> Plant using buffer RLC, CTAB our modified CTAB protocol see Additional file 1 , OHP Omega EZNA HP total RNA, TF thermo fisher, MN RAP <t>Macherey–Nagel</t> NucleoSpin Plant using buffer RAP, OTR Omega EZNA total RNA, QRP RLT Qiagen RNeasy Plant using buffer RLT, MN RA1 Macherey–Nagel NucleoSpin Plant using buffer RA1, ZR ZR plant RNA MiniPrep, OPR Omega EZNA plant RNA Kit 1, QRU Qiagen RNeasy plus universal
    Rneasy Plant Kits, supplied by Qiagen, used in various techniques. Bioz Stars score: 99/100, based on 2700 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/rneasy plant kits/product/Qiagen
    Average 99 stars, based on 2700 article reviews
    Price from $9.99 to $1999.99
    rneasy plant kits - by Bioz Stars, 2020-05
    99/100 stars
      Buy from Supplier

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    Both yield and quality are variable within and across kit based methods, yet the modified CTAB protocol produces consistent high yield and quality in stored ‘d’Anjou tissues. a RINs are higher and more consistent across methods for stored ‘d’Anjou’ peel than cortex. b Excluding protocols with degraded RNA, yields are variable across kits with the highest yield using the CTAB protocol. c Excluding protocols with degraded RNA, A 260/280− ratios were also variable across methods, with CTAB again producing the cleanest RNA. Error bars are standard error of the mean, where applicable. Some data are missing due to very low yield or severely degraded individual samples. QRP RLC Qiagen RNeasy Plant using buffer RLC, CTAB our modified CTAB protocol see Additional file 1 , OHP Omega EZNA HP total RNA, TF thermo fisher, MN RAP Macherey–Nagel NucleoSpin Plant using buffer RAP, OTR Omega EZNA total RNA, QRP RLT Qiagen RNeasy Plant using buffer RLT, MN RA1 Macherey–Nagel NucleoSpin Plant using buffer RA1, ZR ZR plant RNA MiniPrep, OPR Omega EZNA plant RNA Kit 1, QRU Qiagen RNeasy plus universal

    Journal: BMC Research Notes

    Article Title: A practical examination of RNA isolation methods for European pear (Pyrus communis)

    doi: 10.1186/s13104-017-2564-2

    Figure Lengend Snippet: Both yield and quality are variable within and across kit based methods, yet the modified CTAB protocol produces consistent high yield and quality in stored ‘d’Anjou tissues. a RINs are higher and more consistent across methods for stored ‘d’Anjou’ peel than cortex. b Excluding protocols with degraded RNA, yields are variable across kits with the highest yield using the CTAB protocol. c Excluding protocols with degraded RNA, A 260/280− ratios were also variable across methods, with CTAB again producing the cleanest RNA. Error bars are standard error of the mean, where applicable. Some data are missing due to very low yield or severely degraded individual samples. QRP RLC Qiagen RNeasy Plant using buffer RLC, CTAB our modified CTAB protocol see Additional file 1 , OHP Omega EZNA HP total RNA, TF thermo fisher, MN RAP Macherey–Nagel NucleoSpin Plant using buffer RAP, OTR Omega EZNA total RNA, QRP RLT Qiagen RNeasy Plant using buffer RLT, MN RA1 Macherey–Nagel NucleoSpin Plant using buffer RA1, ZR ZR plant RNA MiniPrep, OPR Omega EZNA plant RNA Kit 1, QRU Qiagen RNeasy plus universal

    Article Snippet: Kits with alternate buffers, such as the Macherey–Nagel NucleoSpin Plant and Qiagen RNeasy Plant kits, tended to produce better results using the alternate buffers (Table ), which make them attractive options compared to kits with no alternates.

    Techniques: Modification

    The efficiency of filter paper for purification of nucleic acids from various sources using respective Qiagen kits. (A) Tomato genomic DNAs purified using Qiagen DNeasy plant mini kit. (B) Tomato total RNAs purified using Qiagen RNeasy plant mini kit. (C) PCR products of a GUS fragment purified using Qiagen QIAquick PCR purification kit. (D) PCR products of GUS fragment recovered from an agarose gel using a Qiagen QIAquick gel extraction kit. (E) pUC -19 plasmid DNAs purified using a Qiagen QIAprep spin miniprep kit. For each panel, from left to right are (Q) nucleic acid purified in experiments using original Qiagen spin column, (G) reassembled spin column using two layers of Whatman glass microfiber filters (Grade GF/F), and (P) reassembled spin column using two layers of Whatman qualitative filter paper, (Grade 3) respectively. Upper panel is quantification data based on three experimental replicates normalized according to performance of the Qiagen kit; lower panel is an image of agarose gel electrophoresis for the same volume of purified nucleic acids.

    Journal: PLoS ONE

    Article Title: Filter paper-based spin column method for cost-efficient DNA or RNA purification

    doi: 10.1371/journal.pone.0203011

    Figure Lengend Snippet: The efficiency of filter paper for purification of nucleic acids from various sources using respective Qiagen kits. (A) Tomato genomic DNAs purified using Qiagen DNeasy plant mini kit. (B) Tomato total RNAs purified using Qiagen RNeasy plant mini kit. (C) PCR products of a GUS fragment purified using Qiagen QIAquick PCR purification kit. (D) PCR products of GUS fragment recovered from an agarose gel using a Qiagen QIAquick gel extraction kit. (E) pUC -19 plasmid DNAs purified using a Qiagen QIAprep spin miniprep kit. For each panel, from left to right are (Q) nucleic acid purified in experiments using original Qiagen spin column, (G) reassembled spin column using two layers of Whatman glass microfiber filters (Grade GF/F), and (P) reassembled spin column using two layers of Whatman qualitative filter paper, (Grade 3) respectively. Upper panel is quantification data based on three experimental replicates normalized according to performance of the Qiagen kit; lower panel is an image of agarose gel electrophoresis for the same volume of purified nucleic acids.

    Article Snippet: Purification of plant RNA Plant total RNAs were purified using filter paper-based spin columns following the protocol of the Qiagen RNeasy Plant mini kit (RNeasy Mini Handbook.

    Techniques: Purification, Polymerase Chain Reaction, Agarose Gel Electrophoresis, Gel Extraction, Plasmid Preparation

    Evaluation of purification of tobacco genomic DNA and total RNA using filter paper-based spin columns with respective Qiagen kit buffers and homemade buffers. (A) Agarose gel electrophoresis for 2.5 μl tobacco genomic DNAs elution from purification experiments using Qiagen DNeasy plant mini kit buffers with Qiagen original spin column (Lane Q/Q), filter paper recharged used spin column (Lane Q/R) and filter paper-based homemade spin column (Lane Q/H*), followed by tobacco genomic DNAs purified using homemade buffer with Qiagen original spin column (Lane H/Q), filter paper recharged used spin column (Lane H/R) and filter paper-based homemade spin column (Lane H/H*). (B) UV spectrum curve of tobacco DNAs purified using Qiagen kit (Q/Q, black curve), filter paper recharged spin columns with Qiagen kit buffers (Q/R, blue curve) or homemade buffers (H/R, red curve) from the same amount leaf tissue. Y-axis is UV absorbance, and X-axis is wavelength (nM). (C) Amplification plots for three duplicated qPCR reactions contain 20 ng DNA purified using Qiagen kit (Q/Q, Blue curves) or DNA purified from filter paper recharged spin column with homemade buffer (H/R, Red curves) respectively. The x-axis is PCR cycle numbers, Y-axis is the level of SYBR fluorescence, and the green line is an arbitrary threshold to determine the Cq value (the fractional cycle number at which amplification curve meet threshold level). (D) MOPS-formaldehyde denaturing agarose gel electrophoresis separated 5 μl RNA purified using Qiagen RNeasy plant mini kit buffers with a Qiagen original spin column (Lane Q/Q), filter paper recharged used spin column (Lane Q/R) and homemade filter paper-based spin column (Lane Q/H*), followed total tobacco RNAs purified by using homemade buffer with Qiagen original spin column (Lane H/Q), filter paper recharged used spin column (Lane H/R) and filter paper-based homemade spin column (Lane H/H*). (E) UV spectrum of tobacco total RNA purified using Qiagen kit (Q/Q, black curve), filter paper recharged spin column with Qiagen RNeasy plant mini kit buffers (Q/R, blue curve) or homemade buffers (H/R, red curve). Y-axis is UV absorbance, and the X-axis is wavelength. (F) Amplification plots of three duplicated qRT-PCR reactions for 2.5 ng RNA purified using Qiagen kit (Q/Q, Blue curves) or RNA purified using filter paper recharged spin column with homemade buffer (H/R, Red curves) respectively. Note: * The starting material amount is 100 mg tobacco leaf tissue for experiments using a Qiagen spin column or filter paper recharged spin column, and half amount of plant sample (50 mg) used for homemade spin column purification. All DNAs or RNAs were eluted using 100 ul elution solution.

    Journal: PLoS ONE

    Article Title: Filter paper-based spin column method for cost-efficient DNA or RNA purification

    doi: 10.1371/journal.pone.0203011

    Figure Lengend Snippet: Evaluation of purification of tobacco genomic DNA and total RNA using filter paper-based spin columns with respective Qiagen kit buffers and homemade buffers. (A) Agarose gel electrophoresis for 2.5 μl tobacco genomic DNAs elution from purification experiments using Qiagen DNeasy plant mini kit buffers with Qiagen original spin column (Lane Q/Q), filter paper recharged used spin column (Lane Q/R) and filter paper-based homemade spin column (Lane Q/H*), followed by tobacco genomic DNAs purified using homemade buffer with Qiagen original spin column (Lane H/Q), filter paper recharged used spin column (Lane H/R) and filter paper-based homemade spin column (Lane H/H*). (B) UV spectrum curve of tobacco DNAs purified using Qiagen kit (Q/Q, black curve), filter paper recharged spin columns with Qiagen kit buffers (Q/R, blue curve) or homemade buffers (H/R, red curve) from the same amount leaf tissue. Y-axis is UV absorbance, and X-axis is wavelength (nM). (C) Amplification plots for three duplicated qPCR reactions contain 20 ng DNA purified using Qiagen kit (Q/Q, Blue curves) or DNA purified from filter paper recharged spin column with homemade buffer (H/R, Red curves) respectively. The x-axis is PCR cycle numbers, Y-axis is the level of SYBR fluorescence, and the green line is an arbitrary threshold to determine the Cq value (the fractional cycle number at which amplification curve meet threshold level). (D) MOPS-formaldehyde denaturing agarose gel electrophoresis separated 5 μl RNA purified using Qiagen RNeasy plant mini kit buffers with a Qiagen original spin column (Lane Q/Q), filter paper recharged used spin column (Lane Q/R) and homemade filter paper-based spin column (Lane Q/H*), followed total tobacco RNAs purified by using homemade buffer with Qiagen original spin column (Lane H/Q), filter paper recharged used spin column (Lane H/R) and filter paper-based homemade spin column (Lane H/H*). (E) UV spectrum of tobacco total RNA purified using Qiagen kit (Q/Q, black curve), filter paper recharged spin column with Qiagen RNeasy plant mini kit buffers (Q/R, blue curve) or homemade buffers (H/R, red curve). Y-axis is UV absorbance, and the X-axis is wavelength. (F) Amplification plots of three duplicated qRT-PCR reactions for 2.5 ng RNA purified using Qiagen kit (Q/Q, Blue curves) or RNA purified using filter paper recharged spin column with homemade buffer (H/R, Red curves) respectively. Note: * The starting material amount is 100 mg tobacco leaf tissue for experiments using a Qiagen spin column or filter paper recharged spin column, and half amount of plant sample (50 mg) used for homemade spin column purification. All DNAs or RNAs were eluted using 100 ul elution solution.

    Article Snippet: Purification of plant RNA Plant total RNAs were purified using filter paper-based spin columns following the protocol of the Qiagen RNeasy Plant mini kit (RNeasy Mini Handbook.

    Techniques: Purification, Agarose Gel Electrophoresis, Amplification, Real-time Polymerase Chain Reaction, Polymerase Chain Reaction, Fluorescence, Quantitative RT-PCR

    Organ-specific expression of the LIP1 gene. The level of LIP1 mRNA for lipoic acid synthase was analyzed by RT-PCR with total RNAs extracted from leaves (lane 2), roots (lane 3), and flowers (lane 4). In lane 1, genomic DNA was used as the template for RT-PCR instead of RNA. The level of mRNA for the cytosolic form of cyclophilin was also analyzed as a control with the same total RNAs extracted from leaves (lane 5), roots (lane 6), and flowers (lane 7). The positions of the DNA size markers (in kb) are indicated on the left.

    Journal: Plant Physiology

    Article Title: Biosynthesis of Lipoic Acid in Arabidopsis: Cloning and Characterization of the cDNA for Lipoic Acid Synthase 1

    doi:

    Figure Lengend Snippet: Organ-specific expression of the LIP1 gene. The level of LIP1 mRNA for lipoic acid synthase was analyzed by RT-PCR with total RNAs extracted from leaves (lane 2), roots (lane 3), and flowers (lane 4). In lane 1, genomic DNA was used as the template for RT-PCR instead of RNA. The level of mRNA for the cytosolic form of cyclophilin was also analyzed as a control with the same total RNAs extracted from leaves (lane 5), roots (lane 6), and flowers (lane 7). The positions of the DNA size markers (in kb) are indicated on the left.

    Article Snippet: Total RNAs used for cDNA synthesis and RT-PCR were extracted from leaves, roots, and flowers of Arabidopsis using an RNA-extraction kit (RNeasy plant kit, Qiagen, Chatsworth, CA).

    Techniques: Expressing, Reverse Transcription Polymerase Chain Reaction

    Profile of total RNA isolated by using five commercial kits. a Denaturing gel electrophoresis of total RNA isolated from peach. b Denaturing gel electrophoresis of total RNA from grapevine leaves. 50 mg of young peach and grapevine leaves (indicated as Y), and mature (M) grapevine leaves was used in RNA isolation with Spectrum™ Plant Total RNA kit (Sigma), RNeasy Plant mini kit (Qiagen), Plant/fungi total RNA kit (Norgen), AccuPrep viral RNA extraction kit (Bioneer) and TRIzol Reagent (Life Technologies). The total RNA yield (μg), A260/A280 and A260/A230 ratios averaged from two replicates are given below each gel panel. 28S rRNA, 18S rRNA and small RNAs are indicated with arrows. c Capillary electrophoresis of total RNA with Agilent Bioanalyzer. One ml of each of the total RNA preparations isolated using these five systems was used for the analysis with an Agilent Bioanalyzer 2100 equipped with an RNA Nano chip

    Journal: Virology Journal

    Article Title: A highly effective and versatile technology for the isolation of RNAs from grapevines and other woody perennials for use in virus diagnostics

    doi: 10.1186/s12985-015-0376-3

    Figure Lengend Snippet: Profile of total RNA isolated by using five commercial kits. a Denaturing gel electrophoresis of total RNA isolated from peach. b Denaturing gel electrophoresis of total RNA from grapevine leaves. 50 mg of young peach and grapevine leaves (indicated as Y), and mature (M) grapevine leaves was used in RNA isolation with Spectrum™ Plant Total RNA kit (Sigma), RNeasy Plant mini kit (Qiagen), Plant/fungi total RNA kit (Norgen), AccuPrep viral RNA extraction kit (Bioneer) and TRIzol Reagent (Life Technologies). The total RNA yield (μg), A260/A280 and A260/A230 ratios averaged from two replicates are given below each gel panel. 28S rRNA, 18S rRNA and small RNAs are indicated with arrows. c Capillary electrophoresis of total RNA with Agilent Bioanalyzer. One ml of each of the total RNA preparations isolated using these five systems was used for the analysis with an Agilent Bioanalyzer 2100 equipped with an RNA Nano chip

    Article Snippet: These five kits are TRIzol Reagent (Life Technologies), RNeasy Plant mini kit (Qiagen), Spectrum™ Plant Total RNA kit (Sigma), AccuPrep viral RNA extraction kit (Bioneer) and Plant/fungi total RNA kit (Norgen BioTek).

    Techniques: Isolation, Nucleic Acid Electrophoresis, RNA Extraction, Electrophoresis, Chromatin Immunoprecipitation