Show newer
Akanksha Yadav

So very cool!
---
RT @CellRaiser_
MinDE circuits produce a unique signal that acts like a “cellular radio”, emitting frequency-barcoded data that can spectrally separate single cells or sub-cellular compartments using digital signal processing tools like FFTs, FIR filters, or wavelets with a single fluorophore.
twitter.com/CellRaiser_/status

0
Akanksha Yadav

RT @CellRaiser_
Our first preprint is out! Led by Rohith Rajasekaran (@born2raisecell): “A programmable reaction-diffusion system for spatiotemporal cell signaling circuit design”

A visually stunning toolkit to build cellular radios that probe or control cell biology.

biorxiv.org/content/10.1101/20

0
Akanksha Yadav

RT @HelenFarrants
Want to hear more about far-red calcium indicators in living animals? Step by our poster at tomorrow, Tuesday, 8.30 am - noon at poster board YY29. @ERSchreiter

0
Akanksha Yadav

‘The functions of an engineer’ from Nature 1900 issue, an address by Sir William Henry Preece, on being an engineer, printing, engineering/tackling bacteria!
nature.com/articles/061374b0

0
Akanksha Yadav

Also from earlier this week based on similar tx design for epilespy,

---
RT @akankshay58
Not at all an expert, but a fascinating data point that makes a case for 🧬 therapy because it's neat and it works!
'a strategy that self-selects neurons that are pathologically overactive and down-regulates their excitability in a closed loop'
🔴⏫activity->IEG-K+ channel->🟢📉 twitter.com/LignaniLab_UCL/sta
twitter.com/akankshay58/status

Show thread
0
Akanksha Yadav

Always cool to see such modalities work out in vivo!
From @JunoThera -
Activation-inducible CAR expression enables precise control over engineered CAR T cell function biorxiv.org/content/10.1101/20
design: 'CAR construct integrated downstream of a T cell activation-dependent promoter'

1
Akanksha Yadav boosted
Nature

Referenced link: corporate.eppendorf.com/en/300
Discuss on discu.eu/q/https://corporate.e

Originally posted by Nature Portfolio / @NaturePortfolio@twitter.com: twitter.com/NaturePortfolio/st

Send your applications for the 2022 Eppendorf Award for Young European Investigators. Applicants must be based in Europe and not older than 35 years. Apply now before 15 January. Learn more: corporate.eppendorf.com/en/300

0
Akanksha Yadav


4 DNA origami structures (helix-bundles and ring) used as scaffolds to initiate assembly of CCMV^ (virus) coat protein, takeaways -
- capsid shape, size control
- DNA encapsulation (nuclease resistant)
- tubular origami structure preferred, negative curvature not well tolerated

*imagining 🪆*
^CCMV's reversible assembly process is well characterized, pH/ionic strength control --> formation of hexagonal sheets, tubes

Building on prior work (from the same lab) 2014,
pubs.acs.org/doi/abs/10.1021/n

DNA origami directed virus capsid polymorphism @biorxivpreprint biorxiv.org/content/10.1101/20

0
Akanksha Yadav boosted
Howard Salis

Hello! My #SynBio & #MetabolicEng lab at #PennState focuses on rationally engineering microbial organisms (#bacteria, #yeast, #algae) using predictive #models & #design algorithms. Our models predict transcription rates, translation rates, mRNA decay rates, & more. Our #algorithms #design genetic systems from high-level specs, including removing cryptic/undesired elements. We've engineered explosive-sensing bacteria, multi-enzyme pathways, cross-species genetic circuits, & more. #introduction

1+
Akanksha Yadav boosted
Richard Sever

Intro time. Hi #sciencemastodon - I'm Co-Founder of the #preprint servers bioRxiv & medRxiv at Cold Spring Harbor Lab, where I also oversee CSH Perspectives and other #publishing projects. I trained as a molecular biologist. My goal is to improve science communication.

Learn more about bioRxiv at doi.org/10.1101/833400 - and on the podcast tinyurl.com/y8rbttwz

I'm also interested in promoting understanding of different career paths for academics. More at tinyurl.com/4papvn5z

1+
Akanksha Yadav boosted
Akanksha Yadav

Fascinating chemistry based on the concept of 'avidity' for sequencing from Element Biosciences described in this recent @biorxivpreprint

It fundamentally differs from sequencing by synthesis (SBS) technology as used in NGS by Illumina, hence it tickled my fancy to write a 🧵:
biorxiv.org/content/10.1101/20

Sequencing by synthesis works by sequential incorporation (catalyzed by polymerase) and detection of synthetic nucleotides.
1/n

1
Akanksha Yadav

Unrelated (or not), also appending an ode to the thought of a connection my brain made while reading the above with the following figure from nature.com/articles/s41592-020
5/n

Show thread
0
Akanksha Yadav

Steps involved -
- rolling circle amplification of DNA -> concatemers on flowcell
- imaging 🐙 ie 'avidite': a dye labeled polymer with multiple, identical nucleotide attached -> binds multiple nucleotides across DNA copies
- washing with 🐙 intact -> detection
- remove 🐙 (since held by non-covalent interaction)
- extend 1 base with polymerase + unlabeled, blocked nucleotide
- remove block, repeat

Undiscussed but personally curious about 🐙 design.
4/n

Show thread
1
Akanksha Yadav

Avidity in this context implies the cumulative strength of multiple base pair interactions as opposed to single base pair binding events that SBS relies on.

Stronger interaction means lower substrate concentration needed and longer residence time ➡️ enables imaging without bond formation

Some nice biochemical characterization summarized in the figure below from the paper to crunch kinetic rates from -
3/n

Show thread
1
Akanksha Yadav

Practically needs micromolar amounts of enzyme + substrate ie nucleotides conjugated to fluorescent dye (detection) + blocking group (1 base at a time)

Avidity sequencing chemically decouples detection from polymerase extension allowing separate optimizations of each step. That helped reduce working concentration of the new reagents.

The idea of decoupling was also pursued by BGI using antibodies in 2020,
biorxiv.org/content/10.1101/20
2/n

Show thread
1
Akanksha Yadav

Fascinating chemistry based on the concept of 'avidity' for sequencing from Element Biosciences described in this recent @biorxivpreprint

It fundamentally differs from sequencing by synthesis (SBS) technology as used in NGS by Illumina, hence it tickled my fancy to write a 🧵:
biorxiv.org/content/10.1101/20

Sequencing by synthesis works by sequential incorporation (catalyzed by polymerase) and detection of synthetic nucleotides.
1/n

1
Akanksha Yadav boosted
Carolyn Bertozzi

Just arrived here, hope the #glycotime community continues to grow!

1+
Akanksha Yadav


Hi all!

I am Akanksha, currently working as a research tech at HHMI Janelia Research Campus, engineering bioluminescent proteins for functional imaging.

My research interests lie at the interface of chemistry, biology, and engineering 🔬. 'A tool developer' describes me best - in the dry lab, I was working on a systems biology project involving detecting hard-to-find nucleotide changes with certain effects from human transcriptome datasets. Transitioning to a wet lab, I have been engineering proteins for various applications.

Being an avid learner, I spend a lot of time reading articles from across various sub-disciplines in bioscience and biotech. I'm happiest when brainstorming ideas in molecular/synthetic biology or new tools that don't exist with a near-perfect cup of coffee☕ ! Always happy to connect over a crazy idea!

Cheers!

1

biology

1

academic

1

biotech

1

scicomm There is nothing here!

0
Qoto Mastodon

QOTO: Question Others to Teach Ourselves
An inclusive, Academic Freedom, instance
All cultures welcome.
Hate speech and harassment strictly forbidden.

Trending now

Resources

Developers

What is Mastodon?

qoto.org

More…

v3.5.19-qoto · Privacy policy