- Apr 2023
-
-
Instead of richly growing over the years, your blog becomes more difficult to manage, and ultimately less useful.
This has personally been the direct opposite of my experience on Write.as, and I think it's largely to do with the fact that I am constrained to tagging.
However...
If more management options helps anyone else feel more cohesively published, I am down to explore.
I suppose you could extrapolate on that and say... I think adapting to the Musing Studio suite was the best CMS thing that ever happened to me and it's helped tremendously... I feel I know it so well that it's actually hard to think of requests/suggestions lol.
But I think that function for me (and perhaps others who've been drawn here for similar reasons) has been served, past tense. The perspective/skills have been acquired and you should absolutely feel enabled to get complicated.
The only request I've come up with is.. perhaps an absorption of the
<!--more-->
and<!--comment-->
into the UI as settings.
Tags
Annotators
URL
-
- Sep 2022
-
Local file Local file
-
www.zettlr.com www.zettlr.com
-
A comparision of Zettlr with some very popular Markdown editors in table form
- COMPARE
-
-
www.zettlr.com www.zettlr.com
-
- TEST it
-
-
-
- markdown editors
-
-
markdownpad.com markdownpad.com
-
About MarkdownPad Author MarkdownPad is developed by Evan Wondrasek, a software engineer based out of Minneapolis, MN. For updates, follow @evanw on Twitter. Built Exclusively for Windows MarkdownPad is designed for Windows and uses the .NET 4 and Windows Presentation Foundation 4 frameworks (that means it's extra shiny on the inside).
- about
-
MarkdownPad Pro supports multiple Markdown processing engines, including Markdown Extra (with Table support), and GitHub Flavored Markdown. With tabbed documents, a built-in image uploader, spell check, auto-save and syntax highlighting, there's no limit to what you can do with MarkdownPad.
- extensions
-
MarkdownPad is a full-featured Markdown editor for Windows.
- MD
-
- May 2022
-
github.com github.com
-
html <md> # Markdown Support Awesomeness </md>
html <github-md># Example </github-md>
-
- Dec 2021
-
uiwjs.github.io uiwjs.github.io
Tags
Annotators
URL
-
- Mar 2021
-
stackoverflow.com stackoverflow.com
-
knit: (function(inputFile, encoding) { rmarkdown::render(inputFile, encoding = encoding, output_dir = "pdf") })
knit html to another folder other than the working directory
-
- May 2020
-
Local file Local file
-
this paper may related to the previous one of Daniel Seeliger. FBDD is not only useful for hit fidning, but also for MoA exploration. CADD is particular suitable for FBDD as the sampling of small molecule will more thourough
-
site-identification by ligand competitive saturation (SILCS)
SILCS
-
-
cbio.bmt.tue.nl cbio.bmt.tue.nl
-
This is a good overview of the common potentials of a force field
-
- Jul 2019
-
sg.inflibnet.ac.in sg.inflibnet.ac.in
-
Application of sample
-
-
sg.inflibnet.ac.in sg.inflibnet.ac.in
-
INSTRUMENTATION
-
MP14:
-
-
sg.inflibnet.ac.in sg.inflibnet.ac.in
-
Anti-inflammatory activity
-
Acute toxicity studies
-
Drugs and chemicals
-
Oral administration of doses
-
Animal handling and care
-
Animals
-
Preparation of distilled extracts
-
Harvest of germinated seed
-
Germination of N.sativaseeds
-
Collection of N.sativaseeds
-
-
sg.inflibnet.ac.in sg.inflibnet.ac.in
-
Statisticalanalysis
-
ROS assay
-
Cytotoxicity assay by Sulphorhodamine B (SRB) me
-
Cytotoxicity assay by MTT (3-[4,5-Dimethylthiazol-2-yl]-2,5 diphenyltetrazolium Bromide)method
-
Cytotoxicityscreenin
-
Cell culture
-
Drugs and chemicals
-
Preparation of distilled extracts
-
Harvest of germinated seeds
-
Germination of N. sativaseeds
-
Collection of N. sativaseeds
-
-
sg.inflibnet.ac.in sg.inflibnet.ac.in
-
TLC study of alkaloids
-
TLC study of phenols
-
TLC study of alkaloids
-
Activation of TLC plate
-
Preparation of TLC plate
-
Study of Phytochemicals by Thin Layer Chromatography (Wagner, and Bladt, 1996)
-
Test for cardiac glycosides
-
Test for Terpenoids
-
Tests for Flavonoids
-
Tests for Phenolic compounds
-
Tests for Saponins
-
Tests for Tannins
-
Tests for Alkaloids
-
Test for Sterols
-
Qualitative study of phytochemicals of N. sativadurin
-
Inoculum preparation
-
Clinical bacterial strains used for the study
-
Preparation of distilled extracts
-
Harvest of germinated seeds
-
Germination of N.sativaseeds
-
Collection of N.sativaseeds
-
-
sg.inflibnet.ac.in sg.inflibnet.ac.in
-
Testing of bioformulations
-
Preparation of bioformulations and determination of
-
Validation of bioformulations under laboratory conditions (in vitro
-
Sequence analysis
-
DNA sequencing of the 18S rDNA fragment
-
Purification of PCR product
-
Analysis of internal transcribed spacer region
-
RAPDand SSRscoring and data analysis
-
PCR amplification
-
Running of gel and visualization of DNA
-
Determination of the yield
-
Agarose gel electrophoresis
-
Qualitative and quantitative estimation of DNA
-
Determination of the yield
-
Procedure for DNA isolation
-
Reagents required for fungal DNA isolationand p
-
DNA isolation of Trichodermaisolate
-
Genetic variability analysis through RAPD and SSR
-
Photography, evaluation and documentation
-
Procedurefor SDS-PAGE
-
Materialsrequired for SDS-PAGE
-
Protein profiling of bioagent through SDS-PAGE
-
Biochemical analysis (Protein estimation)
-
Protein estimation through Kjeldahl method
Tags
- md-2-md-11-md-1-md-7
- md-2-md-11-md-1-md-6
- md-12
- md-1-md-2-mt-2
- md-2-md-11-md-1-md-11
- md-12-md-2
- md-2-md-11-md-1-md-10
- md-2-md-11-md-1-md-1
- md-2-md-11-md-1-md-4
- md-2-md-11-md-1-md-3
- md-2-md-11-md-1-md-5
- md-2
- md-1-md-2-mt-1
- md-2-md-11-md-1-md-8
- md-1
- md-2-md-11-md-1-md-2
- md-1-md-1
- md-2-md-1
- md-2-md-11-md-1-md-12
- md-1-md-2
- md-12-md-1
- md-1-md-2-mt-3
- md-2-md-11-md-1-md-9
Annotators
URL
-
-
sg.inflibnet.ac.in sg.inflibnet.ac.in
-
Oxidative-Fermentative test
-
-
sg.inflibnet.ac.in sg.inflibnet.ac.inChapter 338
-
Active site prediction and docking study
-
Superposition of predicted structure and template (Dof
-
Validations
-
Three dimensional structure prediction, refinements and evaluation of Dof proteins
-
Cis-regulatory element analysis
-
Mapping of SbDof genes on sorghum chromosomes and its intron/exon gene structure prediction
-
In silico prediction of Dof gene family members in S. bicolor (L
-
Motif identification
-
Multiple sequence alignment and phylogenetic analysis
-
In silico analysis of sequenced Dof domain and Dof genes
-
Reaction resuspension
-
Post-reaction clean up
-
Sequencing PCR
-
Sequencing reaction
-
Digestion of Plasmid DNA
-
Minipreparation of plasmid DNA from transformed co
-
Screening of recombinant E. coli clone
-
Transformation of ligation mixture in electro-competent E. coli host cells (DH5ααααstrain)
-
Transformation of ligated product in chemically competent E. coli host cells (DH5αααα strain)
-
Ligation reactions
-
Dephosphorylation of vector
-
Restriction digestion
-
Ligation of eluted PCR product in pBSK vector
-
Cloning of gel eluted PCR produc
-
Gel elution of PCR Produ
-
Scoring of amplification data points and construction of a den
-
Analysis of PCR amplicons using agarose gel electrophoresis
-
Cycling condition
-
PCR reaction set up
-
Basic requirements for PC
-
PCR amplification of Dof domain and Dof genes from different
-
Primer designing for PCR amplification of Dof domain and D
-
Qualitative analysis of DNA by agarose gel electrophoresi
-
Spectrophotometric quantification of genomic DNA
-
DNA purification
-
DNA extraction procedure
-
Isolation of genomic DNA by CTAB method
-
Germination of seeds
Tags
- md-2-md-8-md-2
- md-2-md-13
- md-2-md-2
- md-2-md-7-md-5-md-2
- md-2-md-4
- md-2-md-7-md-2-md-1
- md-2-md-13-md-3
- md-2-md-12
- md-2-md-7-md-2-md-3
- md-2-md-7-md-2
- md-1
- md-2-md-5
- md-2-md-8-md-3
- md-2-md-1
- md-2-md-6-md-6
- md-2-md-6-md-3
- md-2-md-13-md-2
- md-2-md-6-md-2
- md-2-md-7-md-2-md-2
- md-2-md-11
- md-2-md-12-md-2
- md-2-md-6
- md-2-md-7-md-4
- md-2-md-7
- md-2-md-7-md-5-md-1
- md-2-md-9
- md-2-md-7-md-5
- md-2-md-6-md-1
- md-2-md-10
- md-2
- md-2-md-13-md-1
- md-2-md-6-md-5
- md-2-md-6-md-4
- md-2-md-7-md-3
- md-2-md-8
- md-2-md-12-md-1
- md-2-md-8-md-1
- md-2-md-3
Annotators
URL
-
-
shodhganga.inflibnet.ac.in shodhganga.inflibnet.ac.in
-
Solutions used for cytokine assay
-
Assessment of Cytokine levels- IFN--12/IL-10 in lymphocytes of cured/endemic patients
-
Nitrite production in macrophages of hamsters
-
Assessment of Lymphocyte proliferative responses (LTT) in cured/exposed patients and hamsters
-
Immunological assays
-
Treatment of L. donovani infected hamsters and isolation of mononuclear cells (lymph node cells)
-
Patients and isolation of peripheral blood mononuclear cells (PB
-
Preparation of soluble L. donovani promastigote antigen
-
Animals
-
Parasites
-
-
shodhganga.inflibnet.ac.in shodhganga.inflibnet.ac.in
-
Polyclonal antibody generation
-
Overexpression and Purification of recombinant protein (rLdTP
-
Amplification, Cloning and Sequencing
-
Cloning, Overexpression and purificationof TP
-
Production of polyclonal antibodies against rLdADHT and We
-
Purification of recombinant ADHT (rLdADHT)
-
Recombinant protein Expression
-
Clone confirmation
-
Transformation procedure
-
Transformation in E. coli Rosetta (DE3) cells
-
Subcloning of ADHT in pET-28a expression vector
-
Sequencing of ADHT gene
-
Restriction Digestion of Plasmid DNA
-
Colony PCR
-
Preparation of master plate and isolation of plasmid DNA from transformed E. coli (Mini Prep)
-
Confirmation of positive clone(s)
-
Transformation
-
Preparation of chemically competent Escherichia coli using calcium chloride method
-
-
shodhganga.inflibnet.ac.in shodhganga.inflibnet.ac.in
-
Quantification of MMP or ΔΨmloss
-
Assessmentof mitochondrial membrane potential(MMP or ΔΨm)
-
Glutathione peroxidase (GPx) assay
-
Superoxide dismutase (SOD) assay
-
Catalase assay
-
Assay for reduced glutathione(GSH)
-
Assay for Lipid peroxidase(LPO)
-
Estimation of Total protein
-
Oxidative stress parameters
-
Quantification of ROS
-
Detection of intracellular ROS
-
Acridine orange/ethidium bromide (AO –EB) staining
-
Cytomorphological analysis
-
MTT [(4, 5–dimethylthiazol–2–yl)–2, 5-diphenyl tetrazolium Bromide] assay
-
Cell culture
-
Catalytic activity
-
Growth kinetic studies
-
Kirby-Bauer Disk diffusion method
-
Antimicrobial activity
-
Hydrogen peroxide quenching activity
-
Nitric oxide radical quenching activity
-
Superoxide radical scavenging activity
-
Reducing power assay
-
DPPH free radical quenching activity
-
In vitro free radical scavenging assays
-
TGDSC analysis
-
DLS particle size and zeta potential analysis
-
FTIR analysis
-
TEM-EDAX analysis
-
UV–visible spectral analysis
-
Characterization of AgNPs
-
Synthesis of AgNPs
-
GC-MS analysis
-
Qualitative analysis of compounds
-
Collection and preparation of extracts
Tags
- md-7-md-2
- md-9-md-6-md-2
- md-9-md-6-md-1
- md-9-md-4
- md-5-md-1
- md-8-md-6-md-5
- md-9-md-5
- md-6-md-5
- md-6-md-2
- md-7-md-1
- md-4
- md-9-md-6
- md-3
- md-8-md-6-md-6
- md-5-md-3
- md-5
- md-6-md-4
- md-2
- md-8-md-8
- md-9-md-1
- md-8-md-7
- md-9
- md-1
- md-6-md-3
- md-9-md-3
- md-7
- md-9-md-2
- md-5-md-5
- md-5-md-4
- md-5-md-2
- md-6
- md-9-md-6-md-3
- md-8-md-6-md-4
- md-8
- md-6-md-1
Annotators
URL
-
-
sg.inflibnet.ac.in sg.inflibnet.ac.in
-
The Posterior Probability of Mixing Dis-tribution
-
Algorithm
-
EM Procedure
-
Poisson Mixture
-
Data Sources
-
-
sg.inflibnet.ac.in sg.inflibnet.ac.in
-
Poisson Model
-
We have analysed the Cancer data of patients in 155 wards of Chennai Cor-poration by the above described method. As preliminary analyses, we havecreated the Choropleth maps for Observed counts, Population of wards, ex-pected counts for patients and SMR's.The Choropleth map for the observed counts Figure 5.2 does not show anypattern. But the Choropleth map for the expected counts Figure: 5.4 indi-cate that the inner regions of the Chennai Corporations have lower expectedcounts and the regions along the border have larger counts of patients. As ameasure of spatial heterogeneity we have computed PSH= 0:7108:Hence ofthe total spatial random variation, nearly 71% is due to spatial heterogene-ity and the remaining 28:92% is due to Poisson variation. Thus the spatialvariation is present in the data.The Choropleth map for Empirical Bayes smoothed rates Figure 5.5 re-veals that only 13 sub regions have high risk values. The wards with numbers53, 64, 67, 70, 78, 93, 100, 103, 110, 117, 122, 147 and 151 have high riskvalues. Though this information could be used by the health managers toconcentrate their work on these regions, one can look for additional covariatesin these regions for further study
-
Empirical Bayesian Smoothing
-
Incidence Rate and SMR
-
-
sg.inflibnet.ac.in sg.inflibnet.ac.in
-
. Statistical analysis
-
Inhibition of haemocytes spreading behavior
-
. Inhibition of haemocytes aggregation behavior
-
Haemolymph protein profiling
-
Total haemocyte count (THC)
-
Haemolymph collection
-