For sequencing of the mitochondrial genomes reported here, mtDNAs were isolated via CsCl-bisbenzimide equilibrium gradient centrifugation, sequenced by the Sanger technology, assembled with Phred/Phrap (28 (link),29 (link)) and annotated with the MFannot tool (http://megasun.bch.umontreal.ca/cgi-bin/mfannot/mfannotInterface.pl ), essentially as described earlier (27 (link),30 (link)–31 (link)). Complete mtDNA sequences have been deposited in GenBank under the accession numbers KP165385-KP165391. For transcriptome sequencing, total RNA including small RNAs was extracted from cells using the RNeasy Plus Universal Kit (Qiagen). RNA-Seq libraries were constructed using the TruSeq Small RNA Sample Prep kit (Illumina) following the supplier's instructions, except that total RNA was not size-fractionated. Both the library preparation and the paired-end Illumina sequencing were outsourced to the technology platform of the Genome Quebec Innovation Center in Montreal, generating 18–39 million Illumina HiSeq2500 (up to 150 nt read length for A. godoyi, M. jakobiformis and M. californiana) and 6.8 million Illumina MiSeq paired-end reads (up to 250 nt read length for J. bahamiensis). The applied procedure yields RNA-Seq data that allow accurate mapping of 5S rRNA termini and precise determination of RNA steady-state levels.
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Bisbenzimidazole Trihydrochloride
Bisbenzimidazole Trihydrochloride
Bisbenzimidazole Trihydrochloride is a chemical compound with a variety of research applications.
It is a derivative of benzimidazole, a heterocyclic aromatic organic compound.
This substance has been studied for its potential use in fields such as medicinal chemistry, biochemistry, and materials science.
PubCompare.ai can help optimize your Bisbenzimidazole Trihydrochloride research by providing smart comparisons of protocols from literature, preprints, and patents.
This AI-powered platform can enhance reproducibility and accuracy, streamlining your research process and helping you locate the best methodologies for your specific needs.
Discover how PubCompare.ai can take your Bisbenzimidazole Trihydrochloride research to the next level.
It is a derivative of benzimidazole, a heterocyclic aromatic organic compound.
This substance has been studied for its potential use in fields such as medicinal chemistry, biochemistry, and materials science.
PubCompare.ai can help optimize your Bisbenzimidazole Trihydrochloride research by providing smart comparisons of protocols from literature, preprints, and patents.
This AI-powered platform can enhance reproducibility and accuracy, streamlining your research process and helping you locate the best methodologies for your specific needs.
Discover how PubCompare.ai can take your Bisbenzimidazole Trihydrochloride research to the next level.
Most cited protocols related to «Bisbenzimidazole Trihydrochloride»
Bisbenzimidazole Trihydrochloride
Centrifugation
cesium chloride
DNA, Mitochondrial
DNA Library
Genome
Genome, Mitochondrial
RNA, Ribosomal, 5S
RNA-Seq
Avidin
Bisbenzimidazole Trihydrochloride
Blood Vessel
Brain
Buffers
Corpus Callosum
Cortex, Cerebral
Drug Overdose
Eye
Fingers
Fluorescence
Fluorescent Antibody Technique
Heart
Histocytochemistry
Hyperostosis, Diffuse Idiopathic Skeletal
Immunoglobulins
Ketamine
Light
Mice, Laboratory
Microscopy
Microscopy, Fluorescence
Microtomy
Muscarinic Acetylcholine Receptor
Neurons
Oxidase, Cytochrome-c
paraform
Phosphates
Porifera
Saline Solution
Strains
Striate Cortex
Sucrose
Tissues
White Matter
Xylazine
Neutrophils were seeded on glass coverslips treated with 0.001% polylysine, allowed to settle, and treated with PMA (25 nM) or left unstimulated. Cells were fixed with 4% PFA, blocked (3% normal donkey serum, 3% cold water fish gelatin, 1% bovine serum albumin, and 0.05% Tween 20 in PBS) and incubated with primary antibodies antinuclear membrane (ab12365; Abcam); anti–H2A–H2B–DNA complex (Losman et al., 1992 (link)); anti-neutrophil elastase (in-house); anti–S. aureus (Biodesign), which were detected with secondary antibodies coupled to Cy2 or Cy3 (Dianova). Controls were done with isotype-matched controls. For DNA detection, DRAQ5 (shown) Bisbenzimide 33342 (Hoechst 33342), Sytox, and ToPro3 were used. Specimens were mounted in Mowiol and analyzed with a PlanApo 63×/1.32 NA objective on a confocal microscope (TCS-SP; Leica).
Antibodies
Antibodies, Anti-DNA
Antibodies, Antinuclear
Bisbenzimidazole Trihydrochloride
Cells
Common Cold
Equus asinus
Fishes
Gelatins
HOE 33342
Immunoglobulin Isotypes
Microscopy, Confocal
Neutrophil
neutrophil elastase, human
Polylysine
SERPINA1 protein, human
Serum
Serum Albumin, Bovine
Tissue, Membrane
Tween 20
Microscopy samples were prepared as follows (more detailed instructions are available for download from http://users.ox.ac.uk/~path0493/htiaot.html ). T. brucei, L. mexicana and C. fasciculata were harvested from culture by centrifugation, washed with phosphate-buffered saline (PBS) and fixed with 2% paraformaldehyde in PBS. Cells were permeabilized with -20°C methanol and rehydrated with PBS. Many base pair intercalating stains also label RNA, therefore samples were incubated with 50 μg/ml RNaseA at room temperature for 1 h prior to staining. For analysis of a single sample (method 1) cells were stained with a combination of 1 μg/ml DAPI or bisbenzimide (Hoechst) 33342 and 40 μg/ml PI or 1:10,000 SYBR green (Sigma-Aldrich, S9430) for 2 min, washed with PBS and mounted in glycerol with 1% 1,4-diazabicyclo[2.2.2]octane and 10% 50 mM sodium phosphate, pH 8.0. Images were captured with an HCX PL APO 40 × NA 1.25 oil immersion lens (Leica Microsystems, Milton Keynes, UK) on a DM5500 B epifluorescence microscope (Leica Microsystems) with an Orca cooled CCD camera (Hamamatsu Photonics, Welwyn Garden City, UK). Images were only captured from regions of the sample not pre-exposed to the fluorescence light source; this avoids photobleaching and therefore allows accurate quantification of DNA from the fluorescent signal.
For comparative analysis of multiple samples (method 2) slides were stained by immersion in 40 ng/ml DAPI and 200 ng/ml PI in PBS for 2 min then mounted in the staining solution. This method aims to minimize variation, that is, give maximum precision, by keeping the DNA within the sample in equilibrium with the same concentration of the fluorescent DNA stains at all times. This is at the cost of photostability of the fluorescent stains as no photoprotective agent is present.
For comparative analysis of multiple samples (method 2) slides were stained by immersion in 40 ng/ml DAPI and 200 ng/ml PI in PBS for 2 min then mounted in the staining solution. This method aims to minimize variation, that is, give maximum precision, by keeping the DNA within the sample in equilibrium with the same concentration of the fluorescent DNA stains at all times. This is at the cost of photostability of the fluorescent stains as no photoprotective agent is present.
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Base Pairing
Bisbenzimidazole Trihydrochloride
Cells
Centrifugation
DAPI
Fluorescence
Glycerin
Lens, Crystalline
Light
Methanol
Microscopy
octane
Orcinus orca
paraform
Phosphates
PI 200
Saline Solution
sodium phosphate
Staining
stains-all
Submersion
SYBR Green I
The viability of dissociated hippocampal cells was evaluated according to the percentage ratio between the number of dead cells stained by propidium iodide (Sigma, P4170, Germany) and the total number of cells stained by bisBenzimide (Invitrogen, H3570, USA) for 7 days after hypoxia [18 , 19 ].
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Bisbenzimidazole Trihydrochloride
Cell Survival
Hypoxia
Propidium Iodide
Most recents protocols related to «Bisbenzimidazole Trihydrochloride»
Angiogenic activities were performed at 48 h post‐LipofectAMINE 3000‐mediated transfection.
Cell proliferation was determined by using a bromodeoxyuridine (BrdU) cell proliferation assay kit (Calbiochem) to detect BrdU incorporation into DNA duplex during cell proliferation. Young and senescent EPCs were seeded 104 cells in 500 μL media overnight. The levels of incorporated BrdU were measured by a SpectraMAX 190 absorbance microplate reader (Molecular Devices) at dual wavelengths from 450 to 540 nm.23 Cell migration was evaluated by Boyden chamber assay in 24‐well transwell chambers (8 μm pore size, Corning). The transwell assay was based on a chamber of two medium‐filled compartments separated by a microporous membrane. EPCs (3 × 104 cells in 100 μL of 0.5% fetal bovine serum (FBS) medium MV2) were seeded in the upper compartment, whereas the lower compartment was loaded with 600 μL of supernatants from EPCs post‐48 h of transfection. After incubation at 37°C for 4 h, the membrane between the two compartments was fixed (−20°C methanol for 5 min) and stained with 18.7 mM bisbenzimide (Sigma; for 20 min). After PBS washes, the number of EPCs that had migrated into the lower side of the membrane was determined by applying inverted fluorescence microscopy (Leica) at ×50 magnification and analysed by Leica QWin image analysis software (Version number: V3.5.2) to determine the average number of cells transmigration.23 For tube formation assay, 200 μL Matrigel (BD Biosciences) was added onto the 24‐well plate for 30 min to allow the gel to solidify. Cells were resuspended in MV2 containing 2.5% FBS, seeded at a density of 3 × 104 cells per well and incubated at 37°C for 24 h to form capillary‐like structures. The cumulative tube length was calculated in four randomly selected microscopic fields at 50× magnification derived from four independent experiments using Leica QWin image analysis software (Cambridge, UK, Version number: V3.5.2) as an indicator of their angiogenic potential.23
Cell proliferation was determined by using a bromodeoxyuridine (BrdU) cell proliferation assay kit (Calbiochem) to detect BrdU incorporation into DNA duplex during cell proliferation. Young and senescent EPCs were seeded 104 cells in 500 μL media overnight. The levels of incorporated BrdU were measured by a SpectraMAX 190 absorbance microplate reader (Molecular Devices) at dual wavelengths from 450 to 540 nm.
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5-bromouridine
angiogen
Biological Assay
Bisbenzimidazole Trihydrochloride
Capillaries
Cell Proliferation
Cells
erucylphosphocholine
Fetal Bovine Serum
Lipofectamine
matrigel
Medical Devices
Methanol
Microscopy
Microscopy, Fluorescence
Tissue, Membrane
Transfection
To assess neurodegeneration in the hippocampus and cortex, a slice of the middle part of the brain containing these structures was sectioned coronally (10 µm thick). For fluorescent immunostaining, slides were allowed to equilibrate to room temperature for 30 min, fixed with 3.7% formaldehyde for 20 min, and subsequently rinsed in PBS (pH 7.35). Brain sections were blocked for 1 h at room temperature with 5% normal goat serum, 2% Triton X-100, and 0.2% NaN3 (Sigma Aldrich) in PBS. To visualise neuronal nuclei, sections were incubated overnight at 4 °C with the primary antibody mouse anti-NeuN (NeuN, clone A60, dilution 1:200, Cat # MAB377, Millipore) diluted in blocking buffer. Sections were rinsed in PBS and incubated with Cy3-conjugated goat anti-mouse (dilution 1:300, Cat # 115-165-044, Jackson ImmunoResearch Laboratories, Inc.) for 1 h at room temperature. To visualise all nuclei, sections were washed in PBS and incubated in bisbenzimide (dilution 1:100, 3.5 mg/ml, Sigma) for 3 min. After a final rinse, sections were mounted with fluorescent mounting medium (Dako). Detailed images of the cortex and hippocampus were acquired using a confocal laser scanning microscope (Leica TCS SP8 X) with a 20 × objective. The total number of neurons and cells in these images was quantified by intensity thresholding and watershed segmentation to separate adjacent nuclei using FIJI software (version 1.53c).
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Bisbenzimidazole Trihydrochloride
Brain
Buffers
Cell Nucleus
Cells
Clone Cells
Cortex, Cerebral
Formaldehyde
Goat
Immunoglobulins
Mice, Laboratory
Microscopy, Confocal
Nerve Degeneration
Neurons
Seahorses
Serum
Sodium Azide
Technique, Dilution
Triton X-100
Fshr mRNA expression was assessed in the pituitary, liver, and ovary from adult female mice using RNAscope 2.5 High-definition Assay-RED (Advanced Cell Diagnostics, Hayward, CA), according to the manufacturer’s instruction as previously described46 (link). The Fshr probe used is designed to target transcript NM_013523.3 with a target sequence spanning nucleotides 554–1487. Probes targeting the DapB gene from Bacillus subtilis were used as a negative control. In brief, endogenous peroxidase activity was blocked with an RNAscope hydrogen peroxide solution. Tissues were permeabilized with RNAscope protease plus. Sections were then hybridized with either the Fshr probe or the negative control probe. This was followed by a series of amplification incubation steps. Finally, the hybridization signals were detected by detection reagents. Nuclei were stained with bisbenzimide. Images were captured using a ZEISS Axio Scan Z1. Positive hybridization was determined using Advanced Cell Diagnostic’s RNAscope scoring guidelines. To determine the colocalization of Fshr mRNA and ACTH, immunolabelling of ACTH was performed on the same pituitary sections after RNAscope in situ hybridization.
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Acid Hybridizations, Nucleic
Bacillus subtilis
Biological Assay
Bisbenzimidazole Trihydrochloride
Cell Nucleus
Cells
Diagnosis
FSHR protein, human
Genes
In Situ Hybridization
Liver
Mus
Nucleotides
Ovary
Peptide Hydrolases
Peroxidase
Peroxide, Hydrogen
Radionuclide Imaging
RNA, Messenger
Tissues
Woman
tGFP-TPC2 mice were generated and analyzed as described in ref. 49 (link) and in the SI Appendix . Briefly, the brain and hypophysis were frozen in Tissue-Tek O.C.T. compound (4583, Sakura), and 14-µm cryosections were prepared. The slices were incubated with a chicken-GFP antibody (Invitrogen, A10262), diluted at 1:1,000, overnight at 4 °C. After washing, the sections were incubated with donkey anti-chicken-Cy2 (Jackson Immunoresearch Cat. 703-225-155), diluted at 1:500, for 2 h at room temperature. Nuclei were stained for 5 min using 2 µg/mL bisbenzimide solution (Sigma, B1155) before mounting in Fluoromount-G (Biozol, SBA-0100-01). Images were acquired using a Zeiss AxioScan.Z1 slide scanner and processed using ZenBlue software.
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Bisbenzimidazole Trihydrochloride
Brain
Cell Nucleus
Chickens
Cryoultramicrotomy
Equus asinus
Freezing
Immunoglobulins
Mice, Laboratory
Pituitary Gland
Tissues
Brains from virus-infused rats were fixed in 4% paraformaldehyde. Following a 24 h post-fix, brains were cryoprotected with 30% sucrose then sliced at 60 μm. Tissue was blocked in buffer (3% bovine serum albumen, 1.5% normal donkey serum, 0.2% Triton-X, 0.2% Tween-20 in phosphate-buffered saline (PBS)) for at least 1 h and then transferred to new buffer with anti-GFP (RRID: AB_10000240, cat: GFP-1020, Aves, chicken, 1:4,000), anti-HDAC5 (Cell Signaling Technology Cat# 2082, RRID: AB_2116626, rabbit), anti-cre (Millipore MAB3120 clone 2D8, RRID: AB_2085748, mouse), anti-cre (Synaptic Systems Cat# 257 004, RRID: AB_2782969, guinea pig), or anti-Flag (Millipore, F1804, RRID: AB_262044, mouse). The next day, tissue was washed 3× 5 min, and anti-chicken, anti-guinea pig, or anti-mouse secondary was added for 1 h [(RRID: AB_2340375, cat: 703-545-155, 488 donkey anti-chicken, Jackson, 1:500) or (RRID: AB_2340854, 715-585-150, 594 donkey anti-mouse, Jackson, 1:500) or (anti-mouse 488, Thermo Fisher Scientific Cat# A-21202, RRID: AB_141607) or (anti-guinea pig Cy3, Jackson ImmunoResearch Labs Cat# 706-165-148, RRID: AB_2340460)]. Tissue was washed in bisbenzimide (1:5,000, Hoechst 33342, Invitrogen) for 2 min, followed by 2× 5 min PBS washes, and then mounted. Images were taken with a Nikon Eclipse 80i fluorescent microscope or the Leica Thunder 3-dimensional (3D) Tissue Imager and processed with ImageJ (RRID: SCR_002285, Fiji, NIH).
Aves
Bisbenzimidazole Trihydrochloride
Brain
Cavia
Chickens
Clone Cells
Equus asinus
HDAC5 protein, human
HOE 33342
Kilham Rat Virus
Mice, House
Microscopy
paraform
Phosphates
Rabbits
Saline Solution
Serum
Serum Albumin, Bovine
Sucrose
Tissues
Tween 20
Top products related to «Bisbenzimidazole Trihydrochloride»
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Bisbenzimide is a fluorescent dye used as a lab equipment product. It is a selective and high-affinity DNA-binding agent, capable of intercalating with the minor groove of DNA. Bisbenzimide is commonly used in various biological and biochemical applications, including nucleic acid staining, cell viability assays, and fluorescence microscopy.
Sourced in United States, Germany
BisBenzimide H 33258 is a fluorescent dye used in various laboratory applications. It binds to DNA and can be used for nucleic acid staining and detection.
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Bisbenzimide Hoechst 33342 is a fluorescent dye used in various laboratory applications. It binds to the minor groove of DNA and emits a blue fluorescence when excited with ultraviolet light. The dye is commonly used for nuclear staining, cell proliferation assays, and DNA content analysis.
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Propidium iodide is a fluorescent dye commonly used in molecular biology and flow cytometry applications. It binds to DNA and is used to stain cell nuclei, allowing for the identification and quantification of cells in various stages of the cell cycle.
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Triton X-100 is a non-ionic surfactant commonly used in various laboratory applications. It functions as a detergent and solubilizing agent, facilitating the solubilization and extraction of proteins and other biomolecules from biological samples.
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Hoechst 33342 is a fluorescent dye that binds to DNA. It can be used to visualize and quantify nucleic acids in various applications such as flow cytometry, fluorescence microscopy, and nucleic acid staining.
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Bisbenzimide Hoechst 33258 is a fluorescent dye used for the staining and detection of DNA. It binds to the minor groove of DNA and emits a blue fluorescence upon excitation. This product is commonly used in various laboratory applications, including cell biology, molecular biology, and genomics research.
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Paraformaldehyde is a white, crystalline solid compound that is a polymer of formaldehyde. It is commonly used as a fixative in histology and microscopy applications to preserve biological samples.
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Bovine serum albumin (BSA) is a common laboratory reagent derived from bovine blood plasma. It is a protein that serves as a stabilizer and blocking agent in various biochemical and immunological applications. BSA is widely used to maintain the activity and solubility of enzymes, proteins, and other biomolecules in experimental settings.
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Hoechst 33258 is a fluorescent dye that binds to the minor groove of DNA. It has excitation and emission wavelengths of 352 nm and 461 nm, respectively.
More about "Bisbenzimidazole Trihydrochloride"
Bisbenzimidazole Trihydrochloride, also known as Bisbenzimide or BisBenzimide H 33258, is a versatile chemical compound with a wide range of research applications.
It is a derivative of the heterocyclic aromatic compound benzimidazole, and has been extensively studied in fields such as medicinal chemistry, biochemistry, and materials science.
This substance has several key properties that make it valuable for research purposes.
It is a fluorescent dye that can bind to DNA, making it a useful tool for staining and visualizing nucleic acids.
Bisbenzimidazole Trihydrochloride has also been investigated for its potential therapeutic applications, such as in the development of cancer treatments and as a component of drug delivery systems.
In addition to its research uses, Bisbenzimidazole Trihydrochloride is closely related to other compounds like Bisbenzimide Hoechst 33342, Propidium iodide, and Hoechst 33258.
These substances share similar chemical structures and often serve overlapping purposes in scientific investigations.
Researchers may utilize Triton X-100, Paraformaldehyde, and Bovine serum albumin in conjunction with Bisbenzimidazole Trihydrochloride to enhance experimental protocols and optimize their research outcomes.
PubCompare.ai is an AI-powered platform that can help streamline and optimize your Bisbenzimidazole Trihydrochloride research.
By providing smart comparisons of protocols from literature, preprints, and patents, the tool can enhance reproducibility, accuracy, and efficiency, allowing you to locate the best methodologies for your specific needs.
Discover how PubCompare.ai can take your Bisbenzimidazole Trihydrochloride research to the next level and unlock new possibilities in your scientific investigations.
It is a derivative of the heterocyclic aromatic compound benzimidazole, and has been extensively studied in fields such as medicinal chemistry, biochemistry, and materials science.
This substance has several key properties that make it valuable for research purposes.
It is a fluorescent dye that can bind to DNA, making it a useful tool for staining and visualizing nucleic acids.
Bisbenzimidazole Trihydrochloride has also been investigated for its potential therapeutic applications, such as in the development of cancer treatments and as a component of drug delivery systems.
In addition to its research uses, Bisbenzimidazole Trihydrochloride is closely related to other compounds like Bisbenzimide Hoechst 33342, Propidium iodide, and Hoechst 33258.
These substances share similar chemical structures and often serve overlapping purposes in scientific investigations.
Researchers may utilize Triton X-100, Paraformaldehyde, and Bovine serum albumin in conjunction with Bisbenzimidazole Trihydrochloride to enhance experimental protocols and optimize their research outcomes.
PubCompare.ai is an AI-powered platform that can help streamline and optimize your Bisbenzimidazole Trihydrochloride research.
By providing smart comparisons of protocols from literature, preprints, and patents, the tool can enhance reproducibility, accuracy, and efficiency, allowing you to locate the best methodologies for your specific needs.
Discover how PubCompare.ai can take your Bisbenzimidazole Trihydrochloride research to the next level and unlock new possibilities in your scientific investigations.