lysis buffer
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Author(s):  
Kyojiro Morikawa ◽  
Shin-ichi Murata ◽  
Y Kazoe ◽  
Kazuma Mawatari ◽  
Takehiko Kitamori

Abstract In micro- and nanofluidic devices, highly precise fluidic control is essential. Conventional mechanical valves in microchannels and nanochannels have size limitations, whereas hydrophobic (Laplace) valves are generally difficult to use for low-surface-tension liquids. In the present study, we developed a method for handling picoliter volumes of low-surface-tension liquids in a micro-nanofluidic device. The proposed Laplace valve is based on the pinning effect. A fused silica micro-nanofluidic device that includes a picoliter chamber whose geometry was designed to induce capillary pinning was designed and fabricated. The measured Laplace pressure of a lysis buffer (surfactant) was consistent with the calculated pressure, indicating successful fabrication and hydrophobic surface modification. The working principle of the Laplace valve was verified. The Laplace valve maintained the lysis buffer at the gas/liquid interface for 60 min, which is sufficiently long for cell lysis operations. Finally, replacement of liquids in the picoliter chamber using the valve was demonstrated. The proposed method will contribute to basic technologies for fluidic control in micro- and nanofluidic devices, and the proposed Laplace valve can be used for low-surface-tension liquids. In addition, the developed valve and picoliter chamber can be utilized for the interface in single-cell lysis, which will facilitate the development of single-cell analysis devices.


Author(s):  
Ruth E. Thom ◽  
Lin S. Eastaugh ◽  
Lyn M. O’Brien ◽  
David O. Ulaeto ◽  
James S. Findlay ◽  
...  

Rapid and demonstrable inactivation of SARS-CoV-2 is crucial to ensure operator safety during high-throughput testing of clinical samples. The inactivation efficacy of SARS-CoV-2 was evaluated using commercially available lysis buffers from three viral RNA extraction kits used on two high-throughput (96-well) RNA extraction platforms (Qiagen QIAcube HT and the Thermo Fisher KingFisher Flex) in combination with thermal treatment. Buffer volumes and sample ratios were chosen for their optimised suitability for RNA extraction rather than inactivation efficacy and tested against a representative sample type: SARS-CoV-2 spiked into viral transport medium (VTM). A lysis buffer mix from the MagMAX Pathogen RNA/DNA kit (Thermo Fisher), used on the KingFisher Flex, which included guanidinium isothiocyanate (GITC), a detergent, and isopropanol, demonstrated a minimum inactivation efficacy of 1 × 105 tissue culture infectious dose (TCID)50/ml. Alternative lysis buffer mixes from the MagMAX Viral/Pathogen Nucleic Acid kit (Thermo Fisher) also used on the KingFisher Flex and from the QIAamp 96 Virus QIAcube HT Kit (Qiagen) used on the QIAcube HT (both of which contained GITC and a detergent) reduced titres by 1 × 104 TCID50/ml but did not completely inactivate the virus. Heat treatment alone (15 min, 68°C) did not completely inactivate the virus, demonstrating a reduction of 1 × 103 TCID50/ml. When inactivation methods included both heat treatment and addition of lysis buffer, all methods were shown to completely inactivate SARS-CoV-2 inactivation against the viral titres tested. Results are discussed in the context of the operation of a high-throughput diagnostic laboratory.


2021 ◽  
Author(s):  
Ana Ramón-Laca ◽  
Abigail Wells ◽  
Linda Park

This protocol is designed for water collection from Niskin bottles and filtration at sea using reusable filter cups. Aim: to collect and filter 2.5 L of water at each depth from each CTD cast and preserved the filter at room temperature in lysis buffer


2021 ◽  
Author(s):  
Abigail Wells ◽  
Linda Park
Keyword(s):  

Lysis buffer recipe (Longmire et al 1997): To make 1 liter


2021 ◽  
Author(s):  
Inswasti Cahyani ◽  
John Tyson ◽  
Nadine Holmes ◽  
Josh Quick ◽  
Nicholas Loman ◽  
...  

This is a sub-protocol designed to extract/isolate ultra-high molecular weight (UHMW) DNA to obtain ultra-long (UL) reads on Nanopore sequencers using a phenol-free extraction method. A DNA extraction protocol that yields clean and homogeneous UHMW DNA is important for a good UL sequencing output. The choice of protocol should be based on achieving these parameters. Kit-free, phenol-free protocol is a modification of NEB's Monarch HMW DNA Extraction Kit for Cells & Blood, with the option to use SDS or CTAB in the lysis buffer. This protocol also uses glass beads for DNA precipitation matrix. We tested this sub-protocol in human cell line, with input cells of 3 millions but can be varied from 1-5 millions. As a rule of thumb, a million cells will suffice for one load on a MinION.


Viruses ◽  
2021 ◽  
Vol 13 (9) ◽  
pp. 1731
Author(s):  
Arianna Ceruti ◽  
Rea Maja Kobialka ◽  
Judah Ssekitoleko ◽  
Julius Boniface Okuni ◽  
Sandra Blome ◽  
...  

African swine fever virus (ASFV) is the causative agent of a deadly disease in pigs and is spread rapidly across borders. Samples collected from suspected cases must be sent to the reference laboratory for diagnosis using polymerase chain reaction (PCR). In this study, we aimed to develop a simple DNA isolation step and real-time recombinase polymerase amplification (RPA) assay for rapid detection of ASFV. RPA assay based on the p72 encoding B646L gene of ASFV was established. The assays limit of detection and cross-reactivity were investigated. Diagnostic performance was examined using 73 blood and serum samples. Two extraction approaches were tested: silica-column-based extraction method and simple non-purification DNA isolation (lysis buffer and heating, 70 °C for 20 min). All results were compared with well-established real-time PCR. In a field deployment during a disease outbreak event in Uganda, 20 whole blood samples were tested. The assay’s analytical sensitivity was 3.5 DNA copies of molecular standard per µL as determined by probit analysis on eight independent assay runs. The ASFV RPA assay only detected ASFV genotypes. Compared to real-time PCR, RPA diagnostic sensitivity and specificity were 100%. Using the heating/lysis buffer extraction procedure, ASFV-RPA revealed better tolerance to inhibitors than real-time PCR (97% and 38% positivity rate, respectively). In Uganda, infected animals were identified before the appearance of fever. The ASFV-RPA assay is shown to be as sensitive and specific as real-time PCR. Moreover, the combination of the simple extraction protocol allows its use at the point of need to improve control measures.


PeerJ ◽  
2021 ◽  
Vol 9 ◽  
pp. e11875
Author(s):  
Tomoko Matsuda

Large volumes of high-throughput sequencing data have been submitted to the Sequencing Read Archive (SRA). The lack of experimental metadata associated with the data makes reuse and understanding data quality very difficult. In the case of RNA sequencing (RNA-Seq), which reveals the presence and quantity of RNA in a biological sample at any moment, it is necessary to consider that gene expression responds over a short time interval (several seconds to a few minutes) in many organisms. Therefore, to isolate RNA that accurately reflects the transcriptome at the point of harvest, raw biological samples should be processed by freezing in liquid nitrogen, immersing in RNA stabilization reagent or lysing and homogenizing in RNA lysis buffer containing guanidine thiocyanate as soon as possible. As the number of samples handled simultaneously increases, the time until the RNA is protected can increase. Here, to evaluate the effect of different lag times in RNA protection on RNA-Seq data, we harvested CHO-S cells after 3, 5, 6, and 7 days of cultivation, added RNA lysis buffer in a time course of 15, 30, 45, and 60 min after harvest, and conducted RNA-Seq. These RNA samples showed high RNA integrity number (RIN) values indicating non-degraded RNA, and sequence data from libraries prepared with these RNA samples was of high quality according to FastQC. We observed that, at the same cultivation day, global trends of gene expression were similar across the time course of addition of RNA lysis buffer; however, the expression of some genes was significantly different between the time-course samples of the same cultivation day; most of these differentially expressed genes were related to apoptosis. We conclude that the time lag between sample harvest and RNA protection influences gene expression of specific genes. It is, therefore, necessary to know not only RIN values of RNA and the quality of the sequence data but also how the experiment was performed when acquiring RNA-Seq data from the database.


2021 ◽  
Author(s):  
Frances Middleton-Davis ◽  
Ashley Davis ◽  
Kim Middleton

Here we present a method that allows detection of acetylated PD-L1 and is applicable to a wide range of cell lines. The method captures >90% of acetylated PD-L1 species, is semi-quantitative and simple to perform in any lab equipped with tissue culture and western blot equipment. The method involves processing cells in a lysis buffer that has been optimized for efficient immunoprecipitation (IP) of acetylated species, an IP enrichment step utilizing an acetyl-lysine affinity matrix and western blot detection of both total and acetylated PD-L1 on the same blot. This technique compliments the alternative IP approach utilizing a PD-L1 antibody as the IP reagent and an anti-acetyl lysine antibody as the detection reagent. However, because the protocol described here enables the detection of both total and acetylated PD-L1 on the same blot, this method has the advantage of allowing quantitation of the percent of PD-L1 that is acetylated, an important parameter for mechanistic interpretation. The method described here utilizes beads that are covalently linked to the affinity antibody, resulting in extremely clean IP results. Western blots can be re-probed with a pan anti-acetyl lysine antibody to visualize the total protein acetylation profile in any given lysate, a property that is useful when examining PD-L1 acetylation in the presence of HDAC inhibitors or other treatments affecting global acetylation.


PLoS ONE ◽  
2021 ◽  
Vol 16 (7) ◽  
pp. e0255245
Author(s):  
Paola de Avelar Carpinetti ◽  
Vinicius Sartori Fioresi ◽  
Thais Ignez da Cruz ◽  
Francine Alves Nogueira de Almeida ◽  
Drielli Canal ◽  
...  

Acquiring high-quality RNA in sufficient amounts is crucial in plant molecular biology and genetic studies. Several methods for RNA extraction from plants are available in the literature, mainly due to the great biochemical diversity present in each species and tissue, which can complicate or prevent the extraction. Psidium guajava (Myrtaceae family) is a perennial fruit tree of medicinal and economic value; nevertheless, only a few molecular studies are available for the species. One reason is the difficulty in obtaining RNA due to the content of the samples, which are rich in polyphenols, polysaccharides, and secondary metabolites. Furthermore, there are few studies available for the isolation of RNA from guava or Psidium samples, which hampers advances in the study of the genus. Here, quality and yields of RNA isolates were compared using six extraction protocols: two protocols based on the application of cetyltrimethylammonium bromide (CTAB) lysis buffer, one protocol which uses the TRIzol reagent, one which applies guanidine thiocyanate lysis buffer followed by organic phase extraction, and two commercial kits (PureLink RNA Mini Kit and RNeasy Plant Mini Kit). The CTAB-based method provided the highest RNA yields and quality for five different tissues (flower bud, immature leaf, young leaf, mature leaf, and root), genotypes, and stress conditions. For the most efficient protocol, the average yield of RNA from guava leaves was 203.06 μg/g of tissue, and the A260/A280 and A260/A230 ratios were 2.1 and 2.2, respectively. RT-qPCR analysis demonstrated that the purity of the samples was sufficient for molecular biology experiments. CTAB-based methods for RNA isolation were found to be the most efficient, providing the highest RNA yields and quality for tissues from P. guajava. Additionally, they were compatible for downstream RNA-based applications, besides being simple and cost-effective.


2021 ◽  
Author(s):  
Eric Vaughn ◽  
Catherine Dulac

This protocol is designed to extract single nuclei for sequencing with 10X Genomics technologies. Note: For each step, keep tissue/nuclei/reagents/centrifuge on ice/cold to reduce IEG expression and maintain nuclear integrity. Buffers to prepare: -100mL Lysis Buffer Store @ 4 C: 98.4mL Nuclease-free water 1mL 1M Tris-HCl (10mM) 200uL 5M NaCl (10mM) 300uL 1M MgCl2 (3mM) 100uL NonIdet P40 (0.1%) -PBS w/ 1% BSA and RNAse inhibitor (new batch for each run; enough for 3-4 separate samples): 10mL PBS 100 mg powdered BSA (mix well) 50uL Promega RNasin (40U/uL; final conc: 0.2U/uL)


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