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From improving cancer treatments to saving the bees, these are the companies in IndieBio’s latest class

Ultra-precise cancer therapies! Human-like hair grown from plants! A way to potentially save the bees!

The spectrum of companies coming out of IndieBio has always been pretty wild, and its latest batch definitely doesn’t disappoint.

As the early-stage, biology-focused accelerator arm of SOSV, IndieBio gives the companies in its program $250,000+, mentorship and full access to a biology lab to bring their ideas to life.

When founder Arvind Gupta left the accelerator last year to join the venture capital fund Mayfield, Mayfield and IndieBio partnered to form the Genesis Consortium, which offers IndieBio companies an additional $250,000 in optional funding.

IndieBio initially operated solely out of San Francisco, with the accelerator expanding just last year to include a New York cohort that runs in parallel. The SF program is led by Managing Director Po Bronson, while the New York program is led by Managing Director Stephen Chambers.

With its Demo Day still a ways out, IndieBio gave us a peek at the teams currently going through the program. It’s worth noting that IndieBio deliberately invests very early — in many cases, even before it’s entirely clear whether or not the scientific concepts behind a company are fully feasible. “Our program is our diligence,” Bronson tells me. The goal is to prove out concepts — and figure out how to turn them into big businesses — for hundreds of thousands of dollars, rather than millions. “We’re biting off the risk, and de-risking it for the next investors in line.”

Here are the companies currently in each program, alphabetically:

New York

Beemmunity: Humans need bees in order to survive, but bee populations are plummeting, with one of the main causes believed to be exposure to neurotoxic pesticides. Pitched as “pesticide protection for bees,” Beemmunity is working on a “micro-sponge” that, after being ingested by a bee, captures these neurotoxins and eliminates them as waste. Expected to enter field trials soon.

Brickbuilt Therapeutics: A biotherapeutic lozenge meant to help prevent and treat things like gum disease and thrush.

Bucha Leather Synthetic, animal-free leather grown from bacterial nanocellulose. Their process allows them to make “massive mats” of material that can be produced in weeks.

Free to Feed: If an infant proves allergic to something in their mother’s breastmilk, determining exactly what they’re allergic to can be a long and incredibly frustrating process. Free to Feed is developing test strips that identify different food proteins in breast milk, helping breastfeeding mothers better determine what proteins are leading to an allergic reaction.

Gypsy Basin Genomics: Developing a test, simple enough to be administered as a gargle-and-a-spit during a dentist visit, that can detect at an early stage the oral cancers caused by HPV.

Harmony Baby Nutrition: Pitched as “the only dairy-free, allergy-free, and environmentally friendly baby formula,” Harmony is producing infant formulas that “closely mirror human breast milk.”

MicroTERRA: Using duckweed water lentils to convert fish-farm wastewater into protein. The duckweed helps to purify the fish waste water as it grows; once grown, this “lemna protein concentrate” can be used as a source of protein in animal feed.

Nyoka Design Labs: Non-toxic, biodegradable and recyclable glowsticks powered by bioluminescence.

Sequential Skin: Wipe your face with their skin test kit, send it to their lab, and get a full report on the products that should work well with your skin’s microbiome.

Stembionix: With personal stem cell banking in mind, Stembionix is developing a “mailable bioreactor system” that would allow for the transporting of stem cells without the freezing/thawing that complicates things and can negatively impact viability.

San Francisco

Aja Labs: Pitched as the “beyond meat of hair extensions,” Aja Labs wants to use plants to grow fibers that look and feel like human hair, potentially eliminating the need for chemical-heavy synthetics or human hair in the production of hair extensions.

Avalo.ai: Using interpretable machine learning to identify genes (and what said genes do) in plants at a much faster pace to help develop better crops.

California Cultured: Lab-grown cocoa. The company says it can grow cocoa that is less bitter, and as such requires far less sugar to be tasty.

Canaery: Aiming to “do for scent what machine vision has done for sight,” Canaery is building a neural interface for analyzing an object’s “scent fingerprint” to identify dangerous compounds at places like ports and inspection points without (or in addition to) x-rays or cameras.

Capra Biosciences: Finding ways to turn the otherwise detrimental biofilms that can develop during fermentation into products like motor oil or retinol for cosmetics.

Lypid: Developing vegan oils that behave like animal fats, melting at the same temperature and providing the same mouthfeel, to further improve plant-based meats.

OncoPrecision: Building a faster way to help oncologists determine which cancer drugs (of hundreds) will work best for a patient by applying drugs to patient-derived cells, with the goal of finding the best drug within 7-14 days.

Ozone Bio: Using dead cell fermentation (or “Zombiezymes”) to produce nylon in a greener way.

Panacea Longevity: Aiming to replicate the health benefits of fasting… without fasting. Identifying dietary compounds that can “mimic the body’s natural response to fasting” and develop them into a supplement.

Prolific Machines: High-resolution control of cell differentiation. In lab-grown meat, for example, one could use their tech to determine what bits of a steak are muscle tissue, fat, etc.

Proteinea: Using fly larva to grow “pharma-grade proteins” for use in medicine cheaper and more quickly.

Sundial Foods: Bringing “skin” to plant-based chicken, beginning with a coating that will allow for plant-based chicken wings.

Vertical Oceans: Taking the concept of vertical farming and applying it to seafood, Vertical Oceans is working on efficient, low-waste, stackable towers to make the production of shrimp more sustainable.

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Early-stage investor Mayfield shows how to scale up your biotech startup at TC Early Stage in April

Founders in the earliest stages of startup life face a hefty learning curve. Just some of the core competencies you need to lock down include how to raise VC funding, recruiting the right people, finding product-market fit and building a killer go-to-market team. The list goes on and on…and on. You’ll learn about all those topics and more at TechCrunch Early Stage Operations & Fundraising taking place on April 1-2. 

Do you science? Are you inspired to use biology as technology? If your entrepreneurial interests lean toward the scientific side of the startup equation, you don’t want to miss this special session — brought to you by Mayfield — at TC Early Stage 2021 on April 1-2.

Scientist Entrepreneurs — Scaling Breakout Engineering Biology Companies 

Arvind Gupta and Ursheet Parikh, early-stage investors, company builders and Mayfield partners, along with Po Bronson, NYT bestselling author and managing director of IndieBio, will discuss scaling startups and touch upon three seminal areas that influence trajectory: fundraising, hiring and product design. Their insights draw on their experience with companies including ingredients-as-service leader Geltor (which raised a $91 million Series B in 2020); CRISPR platform Mammoth Biosciences (its dream team includes co-founder and Nobel Laureate Jennifer Doudna); and Endpoint Health (started by GeneWEAVE’s founding team and former YC Bio Partner Diego Rey).

Whether you’re a biotech entrepreneur, a researcher or a scientist tackling the daunting challenges of human and planetary health, this session will help you build a stronger, more successful startup as you take your product to market.

Mayfield will follow up this session with even more content at Disrupt 2021 in September. These sessions will reveal company-building insights from entrepreneurs, investors, industry leaders and policymakers. Mayfield invests in exceptional people whose mission in life is to create a better world — not just for our generation  but for future generations as well. If you science, don’t miss your opportunity to learn from leading investors who have partnered with iconic biotech and health IT entrepreneurs — from Amgen and Genentech to Mammoth Biosciences.

Get your ticket for the April TC Early Stage event here. Or get a dual-event ticket for the April and July events for double the knowledge across operations, marketing, recruiting and fundraising — and save up to $100.

Is your company interested in sponsoring or exhibiting at Early Stage 2021 — Operations & Fundraising? Contact our sponsorship sales team by filling out this form.

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Next-gen skincare, silk without spiders and pollution for lunch: Meet the biotech startups pitching at IndieBio’s Demo Day

Biotech can often, and sometimes literally, fly over our heads. However, the pandemic has shown an increased need for investment and focus on solutions that work on human and planetary health. For IndieBio, a science and biotech accelerator run by VC firm SOSV, this unprecedented year offered high stakes and new challenges.

Today and tomorrow, the biotech accelerator is hosting its twice-annual demo day.

Starting in 2015, IndieBio has provided resources to founders solving complex challenges with biotech, from fake meat to sustainability. Over the years, the accelerator has created a portfolio of biotech companies valued at over $3.2 billion, including companies like Memphis Meats, which develops cultured meat from animal cells; NotCo, a plant-based food brand; and Catalog, which uses organisms for data storage.

As part of the accelerator, each participating company receives $250,000 in capital, numerous other services and access to lab space. In July, the founder and head of IndieBio, Arvind Gupta, left his position to pursue a role at Mayfield. While Gupta remains an adviser, Po Bronson took the role as the new managing director.

Bronson was immediately put to the test. This year, the program expanded from operating solely in San Francisco to also create a cohort based in New York. It also doubled the amount of companies it invested in, bringing this cohort to 20 companies.

As you can imagine, lockdowns ultimately forced founders to delay key lab work in the beginning of the pandemic. Eventually, founders were able to partner with universities, contract research organizations or other biotech accelerators to begin their research, says Julie Wolf, the head of investor relations at SOSV. The NYC class received a “golden ticket” for free lab space come November.

And these dynamics make this cohort all the more fascinating to dive into.

Watch the New York Stream here, which will happen on Tuesday October 27 from 1:00-3:00pm ET.

Watch the San Francisco stream here, which will happen on Wednesday October 28 from 10:00-12:00pm PT.

For those who can’t tune in, here’s a list of all the companies presenting in New York and San Francisco over the next two days.

San Francisco cohort

Reazent: Founded by Sumit Verma, Reazent has discovered and patented a way to manipulate soil bacteria into triggering crops to grow more. It works with 116 strains, from kale to potatoes, and wants to dig into the market of organic agricultural land.

seedlings sprouts plants

Image Credits: Witthaya Prasongsin / Getty Images

Kraken Sense: Founded by Nisha Sarveswaran, Kraken Sense has created an in-line autonomous device to measure the concentration of pathogens in large-scale food and water systems. The product can be deployed in farms and kitchens and uses refillable single-use cartridges.

Advanced Microbubbles: The startup, led by Jameel Feshitan, has created a platform that helps practitioners deliver drugs to complex and difficult tumors. The company collaborated with NIH NIDA and uses proprietary bubbles to deliver chemotherapeutics. Currently, Microbubbles is working to solve two types of cancers: neuroblastoma and pancreatic cancer.

Cybele Microbiome: CEO Nicole Scott has created a direct-to-consumer skincare line with a focus on prebiotics. The line uses ingredients that work in tandem with the skin microbiome, even triggering it to express natural scents.

Ivy Natal: Ivy Natal is developing a process to harvest healthy human egg cells from skin cells. CEO Colin Bortner is working on a treatment for infertility and plans to enable families to have genetic children who can’t otherwise with current solutions.

Microgenesis: Led by Gabriela Gutierrez, Microgenesis has created a proprietary test and nutraceutical regiment (including probiotics) to help women who struggle with infertility get pregnant. The company worked with a cohort of 287 mothers, and with its product over 75% of patients became pregnant.

Image Credits: Westend61 / Getty Images

AsimicA: Led by Nikolai Mushnikov, Asmicia has created a new way to bring stem cells to microbes. The company could lengthen and grow the yields of bio-manufacturing, and is currently working to select the right fermentation partner.

Liberum: CEO Aidan Tinafar is working to disrupt what they think could be a $400 billion market opportunity: recombinant proteins. Liberum has created a protein printer that could cut down the creation of custom recombinant proteins from weeks to a few hours.

Khepra: Led by Julie Kring, Khepra is leveraging fuel production as a way to store extra renewable energy. The company is building a series of reactors that could take your old plastic bottles and cardboard boxes, extract chemicals and fuels, and sell that fuel to refineries.

Carbix: Carbix, led by Quincy Sammy, takes enriched CO2 and converts it into raw material that can then be repurposed into industrial products.

Spintex: CEO Alex Greenhalgh is creating a new, scalable way of making silk. The company mimics spider spinning and uses a natural protein, with an end product that they see as better than premium silk.

New York cohort

Biomage: CEO Adam Kurkiewicz wants to make single-cell sequencing data more accessible for research biologistics. The technology could help scientists explore human cells to enhance medicine and drug discovery.

Diptera.ai: Vic Levitin is creating a scalable, affordable and sustainable way to fight mosquitoes and their diseases.

Cayuga Biotech: Damien Kudela, CEO of Cayuga Biotech, has created a drug that could induce clots and stop severe bleeding situations.

Brightcure: Chiara Heide, CEO of Brightcure, has created a bioactive cream that uses natural bacterium to restore a woman’s natural microbiome.

Multus Media: CEO Cai Linton is producing an ingredient that hopes to make cultivated meat production affordable and accessible.

Image Credits: Getty Images

BioFeyn: The company uses nanotechnologies based on human medicine to deliver nutrients and disease prevention to fish. CEO Timothy Bouley is working to make eating healthy fish a sustainable practice.

Halomine: Ted Eveleth, CEO, wants to turn every surface into an antimicrobial surface. Halomine’s product, Halofilm, can be used in tandem with any household bleach cleaner to enhance disinfection techniques.

Allied Microbiota: Lauralynn Kourtz, CEO of Allied Microbiota, wants to use natural microbes to eliminate toxic waste. The company uses bacteria to clean contaminated soils.

Scindo: Scindo, led by Gustaf Hemberg, uses enzymes to make plastic biodegradable.

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Synthetic biology startups are giving investors an appetite

There’s a growing wave of commercial activity from companies that are creating products using new biological engineering technologies.

Perhaps the most public (and tastiest) example of the promise biomanufacturing holds is Impossible Foods . The meat replacement company whose ground plants (and bioengineered additives) taste like ground beef just raised another $200 million earlier this month, giving the privately held company a $4 billion valuation.

But Impossible is only the most public face for what’s a growing trend in bioengineering — commercialization. Platform companies like Ginkgo Bioworks and Zymergen that have large libraries of metagenomic data that can be applied to products like industrial chemicals, coatings and films, pesticides and new ways to deliver nutrients to consumers.

The new products coming to market

In fact, by 2021 consumer products made with Zymergen’s bioengineered thin films should be appearing at the Consumer Electronics Show (if there is a Consumer Electronics Show). It’s one of several announcements this year from the billion dollar-valued startup.

In August, Zymergen announced that it was working with herbicide and pesticide manufacturer FMC in a partnership that will see the seven-year-old startup be an engine for product development at the nearly 130-year-old chemical company.

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Frontier technologies are moving closer to the center of venture investment

As the technologies that were once considered science fiction become the purview of science, the venture capital firms that were once investing at the industry’s fringes are now finding themselves at the heart of the technology industry.

Investing in the commercialization of technologies like genetic engineering, quantum computing, digital avatars, augmented reality, new human-computer interfaces, machine learning, autonomous vehicles, robots, and space travel that were once considered “frontier” investments are now front-and-center priorities for many venture capital firms and the limited partners that back them.

Earlier this month, Lux Capital raised $1.1 billion across two funds that invest in just these kinds of companies. “[Limited partners] are now more interested in frontier tech than ever before,” said Bilal Zuberi, a partner with the firm.

He sees a few factors encouraging limited partners (the investors who provide financing for venture capital funds) to invest in the firms that are financing companies developing technologies that were once considered outside of the mainstream.

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Biotech researchers venture into the wild to start their own business

Jorge Conde
Contributor

Jorge Conde is a General Partner at Andreessen Horowitz where he leads investments at the cross section of biology, computer science and engineering.

Much of Silicon Valley mythology is centered on the founder-as-hero narrative. But historically, scientific founders leading the charge for bio companies have been far less common.

Developing new drugs is slow, risky and expensive. Big clinical failures are all too common. As such, bio requires incredibly specialized knowledge and experience. But at the same time, the potential for value creation is enormous today more than ever with breakthrough new medicines like engineered cell, gene and digital therapies.

What these breakthroughs are bringing along with them are entirely new models — of founders, of company creation, of the businesses themselves — that will require scientists, entrepreneurs and investors to reimagine and reinvent how they create bio companies.

In the past, biotech VC firms handled this combination of specialized knowledge + binary risk + outsized opportunity with a unique “company creation” model. In this model, there are scientific founders, yes; but the VC firm essentially founded and built the company itself — all the way from matching a scientific advance with an unmet medical need, to licensing IP, to having partners take on key roles such as CEO in the early stages, to then recruiting a seasoned management team to execute on the vision.

Image: PASIEKA/SCIENCE PHOTO LIBRARY/Getty Images

You could call this the startup equivalent of being born and bred in captivity — where great care and feeding early in life helps ensure that the company is able to thrive. Here the scientific founders tend to play more of an advisory role (usually keeping day jobs in academia to create new knowledge and frontiers), while experienced “drug hunters” operate the machinery of bringing new discoveries to the patient’s bedside. This model’s core purpose is to bring the right expertise to the table to de-risk these incredibly challenging enterprises — nobody is born knowing how to make a medicine.

But the ecosystem this model evolved from is evolving itself. Emerging fields like computational biology and biological engineering have created a new breed of founder, native to biology, engineering and computer science, that are already, by definition, the leading experts in their fledgling fields. Their advances are helping change the industry, shifting drug discovery away from a highly bespoke process — where little knowledge carries over from the success or failure of one drug to the next — to a more iterative, building-block approach like engineering.

Take gene therapy: once we learn how to deliver a gene to a specific cell in a given disease, it is significantly more likely we will be able to deliver a different gene to a different cell for another disease. Which means there’s an opportunity not only for novel therapies but also the potential for new business models. Imagine a company that provides gene delivery capability to an entire industry — GaaS: gene-delivery as a service!

Once a founder has an idea, the costs of testing it out have changed too. The days of having to set up an entire lab before you could run your first experiments are gone. In the same way that AWS made starting a tech company vastly faster and easier, innovations like shared lab spaces and wetlab accelerators have dramatically reduced the cost and speed required to get a bio startup off the ground. Today it costs thousands, not millions, for a “killer experiment” that will give a founding team (and investors) early conviction.

What all this amounts to is scientific founders now have the option of launching bio companies without relying on VCs to create them on their behalf. And many are. The new generation of bio companies being launched by these founders are more akin to being born in the wild. It isn’t easy; in fact, it’s a jungle out there, so you need to make mistakes, learn quickly, hone your instincts, and be well-equipped for survival. On the other hand, given the transformative potential of engineering-based bio platforms, the cubs that do survive can grow into lions.

Image via Getty Images / KTSDESIGN/SCIENCE PHOTO LIBRARY

So, which is better for a bio startup today: to be born in the wild — with all the risk and reward that entails — or to be raised in captivity

The “bred in captivity” model promises sureness, safety, security. A VC-created bio company has cache and credibility right off the bat. Launch capital is essentially guaranteed. It attracts all-star scientists, executives and advisors — drawn by the balance of an innovative, agile environment and a well-funded, well-connected support network. I was fortunate enough to be an early executive in one of these companies, giving me the opportunity to work alongside industry luminaries and benefit from their well-versed knowledge of how to build a world-class bio company with all its complex component parts: basic, translational, clinical research, from scratch. But this all comes at a price.

Because it’s a heavy lift for the VCs, scientific founders are usually left with a relatively small slug of equity — even founding CEOs can end up with ~5% ownership. While these companies often launch with headline-grabbing funding rounds of $50m or above, the capital is tranched — meaning money is doled out as planned milestones are achieved. But the problem is, things rarely go according to plan. Tranched capital can be a safety net, but you can get tangled in that net if you miss a milestone.

Being born in the wild, on the other hand, trades safety for freedom. No one is building the company on your behalf; you’re in charge, and you bear the risk. As a recent graduate, I co-founded a company with Harvard geneticist George Church. The company was bootstrapped — a funding strategy that was more famine than feast — but we were at liberty to try new things and run (un)controlled experiments like sequencing heavy metal wildman Ozzy Osbourne.

It was the early, Wild West days of the genomics revolution and many of the earliest biotech companies mirrored that experience — they weren’t incepted by VCs; they were created by scrappy entrepreneurs and scientists-turned-CEO. Take Joshua Boger, organic chemist and founder of Vertex Pharmaceuticals: starting in 1989 his efforts to will into existence a new way to develop drugs, thrillingly captured in Barry Werth’s The Billion-Dollar Molecule and its sequel The Antidote in all its warts and nail-biting glory, ultimately transformed how we treat HIV, hepatitis C and cystic fibrosis.

Today we’re in a back-to-the-future moment and the industry is being increasingly pushed forward by this new breed of scientist-entrepreneur. Students-turned-founder like Diego Rey of in vitro diagnostics company GeneWEAVE and Ramji Srinivasan of clinical laboratory Counsyl helped transform how we diagnose disease and each led their companies to successful acquisitions by larger rivals.

Popular accelerators like Y Combinator and IndieBio are filled with bio companies driven by this founder phenotype. Ginkgo Bioworks, the first bio company in Y Combinator and today a unicorn, was founded by Jason Kelly and three of his MIT biological engineering classmates, along with former MIT professor and synthetic biology legend Tom Knight. The company is not only innovating new ways to program biology in order to disrupt a broad range of industries, but it’s also pioneering an innovative conglomerate business model it has dubbed the “Berkshire for biotech.”

Like the Ginkgo founders, Alec Nielsen and Raja Srinivas launched their startup Asimov, an ambitious effort to program cells using genetic circuits, shortly after receiving their PhDs in biological engineering from MIT. And, like Boger, renowned machine learning Stanford professor Daphne Koller is working to once again transform drug discovery as the founder and CEO of Instiro.

Just like making a medicine, no one is born knowing how to build a company. But in this new world, these technical founders with deep domain expertise may even be more capable of traversing the idea maze than seasoned operators. Engineering-based platforms have the potential to create entirely new applications with unprecedented productivity, creating opportunities for new breakthroughs, novel business models, and new ways to build bio companies. The well-worn playbooks may be out of date.

Founders that choose to create their own companies still need investors to scrub in and contribute to the arduous labor of company-building — but via support, guidance, and with access to networks instead. And like this new generation of founders, bio investors today need to rethink (and re-value) the promise of the new, and still appreciate the hard-earned wisdom of the old. In other words, bio investors also need to be multidisciplinary. And they need to be comfortable with a different kind of risk: backing an unproven founder in a new, emerging space. As a founder, if you’re willing to take your chances in the wild, you should have an investor that understands you, believes in you, can support you and, importantly, is willing to dream big with you.

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Watch biotech startups pitch at IndieBio’s demo day today

IndieBio, the biotech startup accelerator that’s produced heaps of notable companies (including several that have graced the Startup Battlefield), is holding its twice-annual demo day today at 3PM Pacific Time. An even dozen young companies will be pitching their work, from AI-informed research to artificial meat, and you can watch them present live right here.

The IndieBio program is a four-month one that takes companies at the seed stage, often researchers straight out of graduate programs or university research groups, and gets them into shape for a proper Silicon Valley debut. Right now the companies get $250K in funding to take part, as well as plenty of resources, which parent VC firm SOSV can surely afford these days, what with raising $150 million last year.

Off the top of my head I remember two companies that competed at Disrupt SF 2016, Amaryllis Nucleics and mFluiDx, both very technical and highly talented teams. I’m always rooting for these kinds of wet lab companies, and it sounds like the current batch has plenty.

Watch the live pitches starting at 3PM below, and consult the list below the video for a summary of the companies presenting. We’ll be watching too!

New Age Meats: Pig farms are hell on earth. New Age Meats is a “cell-based meat company” that’s looking to replace animal-based pork sausage with a cleaner, more ethical grown alternative that goes just as well with pancakes.

NovoNutrients: Another non-traditional protein source, NovoNutrients uses industrial CO2 emissions to produce high-protein bacteria, which are harvested and sold as sustainable feed stock for aquaculture animals like fish.

BioRosa: An early detection method for autism spectrum disorders using blood tests that could shift diagnosis time to well before the current four years of age to potentially before the child is born.

Chronus Health: Hospitals need to do blood tests constantly, but often have to send samples to a central lab, which can take hours or days. Chronus has made a portable device they claim can provide complete blood count and metabolic panel tests essentially in real time.

Clinicai: Colorectal cancer, like other cancers, is best treated when detected early — and collecting and analyzing stool samples is a big part of that. These guys made a (prototype) device that attaches to ordinary toilets and non-invasively does what it needs to do, which could help people worldwide get proactive diagnosis and care.

Convalesce: Parkinson’s is a stubborn and tragic disease, but Convalesce is working on a treatment method involving injecting stem cells directly into areas affected by neurodegeneration.

Oralta: You can floss, brush, and rinse, but bad news bacteria are still going to take up residence in your mouth. Oralta hopes to combat them with good bacteria, reinforced by probiotic supplements. Fight fire with fire!

Ember: If someone is having a heart attack and it’ll take the EMTs 8-12 minutes to arrive, but your neighbor is a nurse trained in CPR, wouldn’t it be nice if they could stop by and help? That’s the idea with Ember, which hopes to improve outcomes by connecting patients with health professionals nearby.

Filtricine: The cancer treatment method being pursued by this company, instead of adding something lethal to cancer cells into the bloodstream, subtracts what they need to live while leaving normal cells unharmed. It could combine effectiveness with a blessed lack of side effects to become another tool in oncologists’ arsenals.

Serenity Bioworks: Gene therapy is another important therapeutic tool for a variety of problems, but some viral delivery methods can be fought by the body as if it’s fighting infection. Serenity is working on a system that suppresses that immune response and allows the friendly virus to deliver its payload.

Quartolio: So much scientific literature is published every year that there’s no way doctors and researchers can keep up. Quartolio aims to apply national language processing to journal articles to find connections and research opportunities that might otherwise have gone unnoticed.

Stämm: Bioreactors are used in practically every branch of biotech, whether for testing or drug manufacturing. Stämm is advancing the art with a modular, scalable microfluidic platform with highly tunable physical and chemical parameters.

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SOSV, “the accelerator VC,” closes third fund at $150 million

SOSV Managing Director and founder Sean O' Sullivan Since the advent of accelerators, venture capitalists have competed to lock in deals with the best startups in a given batch. Entrepreneur turned investor Sean O’ Sullivan thought it would be better to develop a venture firm that owned and ran its own accelerators. Today that firm, SOSV, has closed its third fund at $150 million to back startups that are admitted to and have graduated… Read More

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Mushroom leather, tiny Zika detectors and lab-made breast milk debut at IndieBio’s third demo day

IndieBio Demo Day 3, Folsom Street Foundry July 14, 2016 The accelerator’s demo day has grown so big we’re now live streaming it on TechCrunch. But it was just a couple years ago that the only pure biotech accelerator launched out of SOS Ventures. Many accelerators and venture firms have started to take a keen interest in the space since then, but Indiebio is still the one many look to in the industry for weird and interesting ideas like… Read More

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