Journal: Neuron

Article Title: Age-dependent effects of apoE reduction using antisense oligonucleotides in a model of β-amyloidosis

doi: 10.1016/j.neuron.2017.11.014

Figure Lengend Snippet: KEY RESOURCES TABLE

Article Snippet: Glyceraldehyde 3-phosphate dehydrogenase (GAPDH) mRNA level was used as a reference (Mm99999915_g1 Gapdh).

Techniques: Purification, Virus, Recombinant, Bicinchoninic Acid Protein Assay, Sequencing, Control, Software

Journal: Nature chemical biology

Article Title: Diabetes reversal by inhibition of the low molecular weight tyrosine phosphatase

doi: 10.1038/nchembio.2344

Figure Lengend Snippet: (a) Surface representation of human LMPTP-A showing phosphate (P) non-covalently bound in the active-site. Residues are colored according to magnitude of shift in the HSQC 15 N- 1 H spectrum upon Compd. 18 titration (red>orange>green). Gray residues had negligible shifts or could not be assigned. (b) Crystal structure of bovine LMPTP W49Y/N50E bound to orthovanadate and Compd. 18 (cyan and blue sticks; Q=quinoline; Pip=piperidine; BN=benzonitrile; L=linker), with selected side-chains (yellow=carbon; red=oxygen; blue=nitrogen; pink=vanadium) and H-bonds/ionic interactions (dashed green/gray lines) shown. (c) Inhibition of phosphatase activity of LMPTP-A/mutants by Compd. 18 using 0.4 mM OMFP substrate. Mean±SD % activity is shown. Data is representative of 3 independent experiments. (d) Compd. 18 modeled into the crystal structure of phosphate-bound human LMPTP, based on an overlay with the bovine ternary complex crystal structure (RMSD=0.33 Å). Selected residues are colored by NMR shift as in (a) . Dashed red line depicts predicted clash between apical oxygen (“A”) of phosphate and Q. (e–f) Structural rationale for SAR data, with atoms at 66% of their true radii. (e) “Side” view of pocket, rotated ~90° about a horizontal axis. The molecular surface has been sliced through the active-site to reveal the tight fit of Q in the pocket. Atoms with a formal charge (±) are labeled. BN is highly polarized, as indicated (δ±); arrows labeled “S” indicate solvent exposure of ring substitutions. (f) “Top” view looking down at the active-site pocket filled by Q. Arrow above atom N1 locates the “saddle-point” at pocket exit.

Article Snippet: cDNAs encoding mouse and human LMPTP-A (protein reference sequences NP_067305.2 and NP_004291.1) and bovine LMPTP (protein reference sequence NP_776403.1) were codon-optimized for E. coli , synthesized, and cloned into the pGEX-4T vector using BamHI/EcoRI by Genscript.

Techniques: Titration, Inhibition, Activity Assay, Labeling, Solvent

Journal: Scientific Reports

Article Title: Purification, characterization, and preliminary serial crystallography diffraction advances structure determination of full-length human particulate guanylyl cyclase A receptor

doi: 10.1038/s41598-022-15798-z

Figure Lengend Snippet: Optimization of pGC-A expression in Sf9 cells. Western blot (anti-pGC-A) of total cell protein over different virus multiplicities of infection (MOI) and transfection time. MOI of 0 indicates no virus transfection. pGC-A (red arrow) is approximately 120 kDa.

Article Snippet: The plasmid construct pFastBac1-pGC-A (Addgene #186626) was designed to allow expression in Sf9 insect cells of pGC-A (amino acids 33–1061 of NCBI Reference Sequence NP_000897.3).

Techniques: Expressing, Western Blot, Infection, Transfection

Journal: Scientific Reports

Article Title: Purification, characterization, and preliminary serial crystallography diffraction advances structure determination of full-length human particulate guanylyl cyclase A receptor

doi: 10.1038/s41598-022-15798-z

Figure Lengend Snippet: Determination of expressed full-length pGC-A functionality via whole-cell activity assay. The competitive ELISA assay measured the cGMP yield level in Sf9 cells expressing full-length pGC-A versus control Sf9 cells (n = 2). Both cell types were incubated with different concentrations of MANP ligand (0 to 10 7 pmol). Incubation with 0 pmol MANP served as a negative control.

Article Snippet: The plasmid construct pFastBac1-pGC-A (Addgene #186626) was designed to allow expression in Sf9 insect cells of pGC-A (amino acids 33–1061 of NCBI Reference Sequence NP_000897.3).

Techniques: Activity Assay, Competitive ELISA, Expressing, Incubation, Negative Control

Journal: Scientific Reports

Article Title: Purification, characterization, and preliminary serial crystallography diffraction advances structure determination of full-length human particulate guanylyl cyclase A receptor

doi: 10.1038/s41598-022-15798-z

Figure Lengend Snippet: Purification of full-length pGC-A via affinity and size exclusion columns. ( A ) Western blot (anti-pGC-A) of samples from cell lysis to the affinity column. pGC-A (red arrow) is ~ 120 kDa. ( B ) Coomassie blue stain from cell lysis to the affinity column. ( C ) Coomassie blue stain of the eluted fraction from Superose 6 that was used for protein crystallization. M: marker; P: membrane pellet from ultracentrifugation after solubilization with n-dodecyl-β-D-maltoside (DDM) and cholesteryl hemisuccinate (CHS); FT: flowthrough from the affinity column; 50, 100, 500: imidazole (mM) at elution from the affinity column.

Article Snippet: The plasmid construct pFastBac1-pGC-A (Addgene #186626) was designed to allow expression in Sf9 insect cells of pGC-A (amino acids 33–1061 of NCBI Reference Sequence NP_000897.3).

Techniques: Purification, Western Blot, Lysis, Affinity Column, Staining, Crystallization Assay, Marker

Journal: Scientific Reports

Article Title: Purification, characterization, and preliminary serial crystallography diffraction advances structure determination of full-length human particulate guanylyl cyclase A receptor

doi: 10.1038/s41598-022-15798-z

Figure Lengend Snippet: Presence of pGC-A in crystals was confirmed via western blot. The anti-pGC-A antibody was used in the western blot. The pGC-A monomer is 120 kDa. Lane 1: combined mix: combined crystallization drops collected in the PCR tube. Lane 2: supernatant: the supernatant collected from the centrifuged combined mix. Lane 3: washed pellet: the crystal pellet was washed with the precipitant solution and collected again via centrifugation. Lane 4: washed supernatant: the supernatant from washed crystal pellet. Lane 5: crystallization drop: one crystallization hanging drop directly mixed with SDS sample buffer. Lane 6: crystallization sample: purified pGC-A before crystallization, serving as a positive control.

Article Snippet: The plasmid construct pFastBac1-pGC-A (Addgene #186626) was designed to allow expression in Sf9 insect cells of pGC-A (amino acids 33–1061 of NCBI Reference Sequence NP_000897.3).

Techniques: Western Blot, Crystallization Assay, Centrifugation, Purification, Positive Control

Journal: Scientific Reports

Article Title: Purification, characterization, and preliminary serial crystallography diffraction advances structure determination of full-length human particulate guanylyl cyclase A receptor

doi: 10.1038/s41598-022-15798-z

Figure Lengend Snippet: Indexed diffraction patterns from pGC-A microcrystals collected via serial crystallography at the Advanced Photon Source. Three indexable diffraction patterns with the highest resolution of 3 Å. ( A ) Blue/pink diffraction graphs show diffraction patterns analyzed using CrystFEL software. ( B ) The original diffraction patterns shown with white background. All diffraction dots were manually circled in red for better visualization.

Article Snippet: The plasmid construct pFastBac1-pGC-A (Addgene #186626) was designed to allow expression in Sf9 insect cells of pGC-A (amino acids 33–1061 of NCBI Reference Sequence NP_000897.3).

Techniques: Software

Journal: Scientific Reports

Article Title: Purification, characterization, and preliminary serial crystallography diffraction advances structure determination of full-length human particulate guanylyl cyclase A receptor

doi: 10.1038/s41598-022-15798-z

Figure Lengend Snippet: Dynamic oligomeric states of pGC-A seen in replicate runs of Superose 6 size exclusion chromatography may be dependent on protein concentration. ( A ) The Superose 6 10/300GL column performance profile. Five standard proteins were used to generate relative molecule elution points based on different molecular sizes. Thyroglobulin (669 kDa) eluted at 14.19 mL, ferritin (440 kDa) eluted at 15.96 mL, aldolase (158 kDa) eluted at 17.58 mL, ovalbumin (44 kDa) eluted at 18.49 mL, and aprotinin (6.5 kDa) eluted at 21.60 mL. ( B-D ) Size exclusion chromatography of pGC-A. ( B ) The peak intensity at 17.3 mL corresponds to the pGC-A monomeric state (120 kDa). pGC-A monomer is the major peak determined by chromatography. Other ratios were faded out in the background and served as supplemental comparison. ( C ) pGC-A tetramer and monomer present similar ratios in the chromatographic separation. The peak intensity at 14.76 mL and 17.29 mL corresponds to pGC-A tetrameric (480 kDa) and monomeric states, respectively. ( D ) The pGC-A tetramer is the major peak. The peak intensity at 15.05 mL corresponds to the pGC-A tetrameric state.

Article Snippet: The plasmid construct pFastBac1-pGC-A (Addgene #186626) was designed to allow expression in Sf9 insect cells of pGC-A (amino acids 33–1061 of NCBI Reference Sequence NP_000897.3).

Techniques: Size-exclusion Chromatography, Protein Concentration, Chromatography

Journal: Scientific Reports

Article Title: Purification, characterization, and preliminary serial crystallography diffraction advances structure determination of full-length human particulate guanylyl cyclase A receptor

doi: 10.1038/s41598-022-15798-z

Figure Lengend Snippet: Silver stain of high resolution clear-native PAGE from pGC-A Superose 6 fractions. Superose 6 column eluted tetramer (480 kDa) and monomer (120 kDa) size peaks were concentrated and analyzed in a 4–16% native gel. M, marker.

Article Snippet: The plasmid construct pFastBac1-pGC-A (Addgene #186626) was designed to allow expression in Sf9 insect cells of pGC-A (amino acids 33–1061 of NCBI Reference Sequence NP_000897.3).

Techniques: Silver Staining, Clear Native PAGE, Marker

Journal: Scientific Reports

Article Title: Purification, characterization, and preliminary serial crystallography diffraction advances structure determination of full-length human particulate guanylyl cyclase A receptor

doi: 10.1038/s41598-022-15798-z

Figure Lengend Snippet: Silver stained clear-native PAGE of different oligomeric samples treated with or without dithiothreitol (DTT) overnight. Three peak samples, which represent the tetramer, dimer, and monomer of full-length pGC-A, were concentrated and split in half for treatment with or without DTT. S, concentrated sample only; S + DTT, concentrated sample incubated with 1 M DTT overnight.

Article Snippet: The plasmid construct pFastBac1-pGC-A (Addgene #186626) was designed to allow expression in Sf9 insect cells of pGC-A (amino acids 33–1061 of NCBI Reference Sequence NP_000897.3).

Techniques: Staining, Clear Native PAGE, Incubation

Journal: Scientific Reports

Article Title: Purification, characterization, and preliminary serial crystallography diffraction advances structure determination of full-length human particulate guanylyl cyclase A receptor

doi: 10.1038/s41598-022-15798-z

Figure Lengend Snippet: Purified full-length pGC-A in vitro functional activity test. ( A ) Functional activity for two pGC-A oligomeric states with ATP incubation. The control group was GTP and ATP in sample buffer. For activity values in units of mg of purified pGC-A, the y-axis values of pmol/mL can be converted to nmol/mg protein by multiplying by 0.00873. ( B ) Functional activity for two pGC-A oligomeric states without ATP incubation. The control group was GTP only in the sample buffer. ( C ) Competitive cGMP ELISA standard fit in four parameters logistic (4PL) curve. The left Y-axis is the B/B0 (%) value and represents the percentage of bound cGMP. The right Y-axis represents the average net optical density (OD) reading at 405 nm. Both standard curves were generated with a 95% confidence interval. ( D ) The cGMP yield differences between pGC-A oligomer samples incubated with or without ATP were analyzed. All raw data points were analyzed via the ROUT method (Q = 1%) to remove significantly impossible outlier values before data analysis. One-way ANOVA was used to determine the statistical significance between samples and control in graphs ( A ) and ( B ). Two-way ANOVA was used to determine the statistical significance in graph ( D ). Each dot represented to the sample point and plotted as mean ± standard deviation (SD). * P ≤ 0.05, ** P ≤ 0.01, **** P ≤ 0.0001 and ns P ≥ 0.05, Not significant.

Article Snippet: The plasmid construct pFastBac1-pGC-A (Addgene #186626) was designed to allow expression in Sf9 insect cells of pGC-A (amino acids 33–1061 of NCBI Reference Sequence NP_000897.3).

Techniques: Purification, In Vitro, Functional Assay, Activity Assay, Incubation, Enzyme-linked Immunosorbent Assay, Generated, Standard Deviation

Journal: Scientific Reports

Article Title: Purification, characterization, and preliminary serial crystallography diffraction advances structure determination of full-length human particulate guanylyl cyclase A receptor

doi: 10.1038/s41598-022-15798-z

Figure Lengend Snippet: Proposed native state and three-step mechanism of full-length pGC-A. First, the full-length pGC-A forms a tetramer complex in the native state by non-covalent interactions (e.g., hydrogen bond and hydrophobic interactions). In each tetramer complex, there are two functional units, and each functional unit may represent a dimer. The narrowest part of the tetramer is the transmembrane domain. Second, the pGC-A signal transduction mechanism is not ATP-dependent. The current ATP-dependent two-step activation mechanism should instead be three-step. The first step is ligand (ANP) binding, which moderately activates the pGC-A; the second step is binding ATP, which partially boosts protein activity; the third step is the pGC-A phosphorylation, which fully activates the guanylyl cyclase.

Article Snippet: The plasmid construct pFastBac1-pGC-A (Addgene #186626) was designed to allow expression in Sf9 insect cells of pGC-A (amino acids 33–1061 of NCBI Reference Sequence NP_000897.3).

Techniques: Functional Assay, Transduction, Activation Assay, Binding Assay, Activity Assay

Journal: STAR Protocols

Article Title: Cloning BRD4 long isoform into overexpression vectors for stable overexpression of BRD4-L in mammalian cells

doi: 10.1016/j.xpro.2022.101785

Figure Lengend Snippet:

Article Snippet: Download the appropriate sequences. a. Download the Reference Sequence for Homo sapiens bromodomain containing 4 (BRD4), transcript variant long, mRNA (GenBank: NM_058243.3) from the NCBI’s website, using the GenBank data base ( BRD4-L RefSeq ). b. Download the sequence for LentiV_Blast (Addgene, cat# 111887) from Addgene’s website ( LentiV_Blast ).

Techniques: Virus, Recombinant, Cloning, Gel Extraction, Plasmid Preparation, Sequencing, Over Expression, Expressing, Software, Imaging