biotech
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As biotechnology becomes more central to new innovations in healthcare, material science and manufacturing, one of the nation’s research hubs is getting a new accelerator called Petri to launch companies focused on the commercialization of new technologies.
Backed by the Boston-based venture capital firm Pillar, Petri has a three-year $15 million commitment to back companies developing new biotech applications in food, healthcare, industrial chemicals and new materials — along with the enabling technologies to bring these products to market.
“We’re at the inflection point where these technologies will impact and continue to impact health but will also impact food, agriculture, chemicals and materials,” says Petri co-founder, Tony Kulesa. “Everything we touch has some element of biology.”
Pillar has already invested in a couple of companies that show the potential promise of new biotech research coming from Boston-based universities, like Boston University, Harvard and the Massachusetts Institute of Technology.
Asimov,io, a company that has set an ultimate goal of designing new genomes for industrial applications, was co-founded by graduates from Boston University and MIT, and is a part of the Pillar portfolio. PathAi, a company working on enabling technologies for computational biology, also counts an MIT grad as a co-founder. Meanwhile, Harvard’s George Church has been instrumental in the development of a number of biotech companies working at the frontier of genetic applications for healthcare and manufacturing.
As an instructor at MIT, Kulesa spent seven years at MIT watching, in his words, how engineering has transformed biology. “It became clear to me that these technologies need to get out in the world,” he said.
Joining Kulesa as a managing director is Brian Baynes, a serial entrepreneur who founded Midori Health, an animal nutrition startup; Kaleido Biosciences, a microbiome control focused company; Celexion, a protein engineering and synthetic biology company; and Codon Devices, a synthetic biology toolkit company which was sold to Ginkgo Bioworks .
Over time, Kulesa and Baynes expect to have 10 to 20 companies in each cohort as the program expands. In addition to checks of at least $250,000 the Petri accelerator has lab and office space available for each company.
The companies also could benefit from potential partnerships with companies like Ginkgo Bioworks, which happens to share office space in the same building, and with the accelerator’s clutch of big-name advisors and “co-founders” recruited from across the life sciences industry.
These co-founders, who collectively hold a double-digit equity stake in Petri’s accelerator, include Reshma Shetty, from Ginkgo Bioworks; Emily Leproust of Twist Bioscience; Stan Lapidus, who was at Exact Sciences and Cytyc; Daphne Koller, the co-founder and chief executive of Insitro; Alec Nielsen, the founder Asimov; and researchers Chris Voigt of MIT and Pam Silver and George Church from Harvard’s Wyss Institute.
Genetically engineered organisms are finding their way into everything from food to fuel to chemistry. Companies like Impossible Foods, which uses genetically modified soy product, has raised hundreds of millions for its protein replacement, while Solugen, a manufacturer of chemicals using genetically modified organisms, has raised tens of millions to commercialize its technology. And Ginkgo Bioworks has raised nearly half a billion dollars to pursue applications for industrial biology.
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By now, the venture world is wary of blood testing startups offering health data from just a few drops of blood. However, Baze, a Swiss-based personal nutrition startup providing blood tests you can do in the convenience of your own home, collects just a smidgen of your sanguine fluid through an MIT manufactured device, which, according to the company, is in accordance with FDA regulations.
The idea is to find out (via your blood sample) which vitamins you’re missing out on and are keeping you from living your best life. That seems to resonate with folks who don’t want to go into the doctor’s office and separately head to their nearest lab for testing.
Most health professionals would agree it’s important to know if you are getting the right amount of nutrition — Vitamin D deficiency is a worldwide epidemic affecting calcium absorption, hormone regulation, energy levels and muscle weakness. An estimated 74% of the U.S. population does not get the required daily levels of Vitamin D.
“There are definitely widespread deficiencies across the population,” Baze CEO and founder Philipp Schulte tells TechCrunch. “[With the blood test] we see that we can actually close those gaps for the first time ever in the supplement industry.”
While we don’t know exactly how many people have tried out Baze just yet, Schulte says the company has seen 40% month-over-month new subscriber growth.
That has garnered the attention of supplement company Nature’s Way, which has partnered with the company and just added $6 million to the coffers to help Baze ramp up marketing efforts in the U.S.
I had the opportunity to try out the test myself. It’s pretty simple to do. You just open up a little pear-shaped device, pop it on your arm and then press it to engage and get it to start collecting your blood. After it’s done, plop it in the provided medical packaging and ship it off to a Baze-contracted lab.
I will say it is certainly more convenient to just pop on a little device myself — although it might be tricky if you’re at all squeamish, as you’ll see a little bubble where the blood is being sucked from your arm. For anyone who hesitates, it might be easier to just head to a lab and have another human do this for you.
The price is also nice, compared to going to a Quest Diagnostics or LabCorp, which can vary depending on which vitamins you need to test for individually. With Baze it’s just $100 a pop, plus any additional supplements you might want to buy via monthly subscription after you get your results. The first month of supplements is free with your kit.
Baze’s website will show your results within about 12 days (though Schulte tells TechCrunch the company is working on getting your results faster). It does so with a score and then displays a range of various vitamins tested.
I was told that, overall, I was getting the nutrients I require with a score of 74 out of 100. But I’m already pretty good at taking high-quality vitamins. The only thing that really stuck out was my zinc levels, which I was told was way off the charts high after running the test through twice. Though I suspect, as I am not displaying any symptoms of zinc poisoning, this was likely the result of not wiping off my zinc-based sunscreen well enough before the test began.
For those interested in conducting their own at-home test and not afraid to prick themselves in the arm with something that looks like you might have it on hand in the kitchen, you can do so by heading over to Baze and signing up.
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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.
Lux Capital just closed on a whopping $1 billion in capital, doubling the amount of money it manages
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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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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Why is tech still aiming for the healthcare industry? It seems full of endless regulatory hurdles or stories of misguided founders with no knowledge of the space, running headlong into it, only to fall on their faces.
Theranos is a prime example of a founder with zero health background or understanding of the industry — and just look what happened there! The company folded not long after founder Elizabeth Holmes came under criminal investigation and was barred from operating in her own labs for carelessly handling sensitive health data and test results.
But sometimes tech figures it out. It took years for 23andMe to breakthrough FDA regulations — it’s since more than tripled its business and moved into drug discovery.
And then there’s Oscar Health, which first made a mint on Obamacare and has since ventured into Medicare. Combined with Bright, the two health insurance startups have pulled in a whopping $3 billion so far.
It’s easy to shake our fists at fool-hardy founders hoping to cash in on an industry that cannot rely on the old motto “move fast and break things.” But it doesn’t have to be the code tech lives or dies by.
So which startups have the mojo to keep at it and rise to the top? Venture capitalists often get to see a lot before deciding to invest. So we asked a few of our favorite health VC’s to share their insights.
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Got hardware? Well then, listen up, because our search continues for boundary-pushing, early-stage hardware startups to join us in Shenzhen, China for an epic opportunity; launch your startup on a global stage and compete in Hardware Battlefield at TC Shenzhen on November 11-12.
Apply here to compete in TC Hardware Battlefield 2019. Why? It’s your chance to demo your product to the top investors and technologists in the world. Hardware Battlefield, cousin to Startup Battlefield, focuses exclusively on innovative hardware because, let’s face it, it’s the backbone of technology. From enterprise solutions to agtech advancements, medical devices to consumer product goods — hardware startups are in the international spotlight.
If you make the cut, you’ll compete against 15 of the world’s most innovative hardware makers for bragging rights, plenty of investor love, media exposure and $25,000 in equity-free cash. Just participating in a Battlefield can change the whole trajectory of your business in the best way possible.
We chose to bring our fifth Hardware Battlefield to Shenzhen because of its outstanding track record of supporting hardware startups. The city achieves this through a combination of accelerators, rapid prototyping and world-class manufacturing. What’s more, TC Hardware Battlefield 2019 takes place as part of the larger TechCrunch Shenzhen that runs November 9-12.
Creativity and innovation no know boundaries, and that’s why we’re opening this competition to any early-stage hardware startup from any country. While we’ve seen amazing hardware in previous Battlefields — like robotic arms, food testing devices, malaria diagnostic tools, smart socks for diabetics and e-motorcycles, we can’t wait to see the next generation of hardware, so bring it on!
Meet the minimum requirements listed below, and we’ll consider your startup:
Here’s how Hardware Battlefield works. TechCrunch editors vet every qualified application and pick 15 startups to compete. Those startups receive six rigorous weeks of free coaching. Forget stage fright. You’ll be prepped and ready to step into the spotlight.
Teams have six minutes to pitch and demo their products, which is immediately followed by an in-depth Q&A with the judges. If you make it to the final round, you’ll repeat the process in front of a new set of judges.
The judges will name one outstanding startup the Hardware Battlefield champion. Hoist the Battlefield Cup, claim those bragging rights and the $25,000. This nerve-wracking thrill-ride takes place in front of a live audience, and we capture the entire event on video and post it to our global audience on TechCrunch.
Hardware Battlefield at TC Shenzhen takes place on November 11-12. Don’t hide your hardware or miss your chance to show us — and the entire tech world — your startup magic. Apply to compete in TC Hardware Battlefield 2019, and join us in Shenzhen!
Is your company interested in sponsoring or exhibiting at Hardware Battlefield at TC Shenzhen? Contact our sponsorship sales team by filling out this form.
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A number of promising women’s health tech companies have popped up in the last few years, from fertility apps to ovulation bracelets — even Apple has jumped into the subject with the addition of period tracking built into the latest edition of the watch. But there hasn’t been much in the way of innovation in women’s sexual health for decades.
In-vitro fertilization (IVF) is now a 40-year-old invention and even the top pharmaceutical companies have spent a pittance on research and development. Subjects like polycystic ovarian syndrome, endometriosis and menopause have taken a backseat to other, more fatal concerns. Fertility is itself oftentimes a mysterious black box as well, though a full 10% of the female population in the United States has difficulty getting or staying pregnant.
That’s all starting to change as startups are now bringing in millions in venture capital to gather and treat women’s health. While it’s early days (no unicorns just yet) interest in the subject has been jumping steadily higher each year.
To shine a better light on the importance of tech’s role in spurring more innovation for women’s fertility, we asked five VCs passionate about the space for their investment strategies, including Sarah Cone (Social Impact Capital), Vanessa Larco (NEA), Anu Duggal (Female Founders Fund), Jess Lee (Sequoia) and Nancy Brown (Oak HC/FT).
Sarah Cone, Social Impact Capital
We’re interested in companies that create large data sets in women’s health and fertility, enabling personalized medicine, clinical trial virtualization, better patient outcomes, and the application of modern AI/ML techniques to generate hypotheses that discover new targets and molecules.
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When serial entrepreneur Eric Lefkofsky grows a company, he puts the pedal to the metal. When in 2011 his last company, the Chicago-based coupons site Groupon, raised $950 million from investors, it was the largest amount raised by a startup, ever. It was just over three years old at the time, and it went public later that same year.
Lefkofsky seems to be stealing a page from the same playbook for his newest company, Tempus. The Chicago-based genomic testing and data analysis company was founded a little more than three years ago, yet it has already hired nearly 700 employees and raised more than $500 million — including through a new $200 million round that values the company at $3.1 billion.
According to the Chicago Tribune, that new valuation makes it — as Groupon once was — one of Chicago’s most highly valued privately held companies.
So why all the fuss? As the Tribune explains it, Tempus has built a platform to collect, structure and analyze the clinical data that’s often unorganized in electronic medical record systems. The company also generates genomic data by sequencing patient DNA and other information in its lab.
The goal is to help doctors create customized treatments for each individual patient, Lefkofsky tells the paper.
So far, it has partnered with numerous cancer treatment centers that are apparently giving Tempus human data from which to learn. Tempus is also generating data “in vitro,” as is another company we featured recently called Insitro, a drug development startup founded by famed AI researcher Daphne Koller. With Insitro, it is working on a liver disease treatment owing to a tie-up with Gilead, which has amassed related human data over the years from which Insitro can use to learn. As a complementary data source, Insitro, like Tempus, is trying to learn what the disease does in a “dish,” then determine if it can use what it observes using machine learning to predict what it sees in people.
Tempus hasn’t come up with any cancer-related cures yet, but Lefkofsky already says that Tempus wants to expand into diabetes and depression, too.
In the meantime, he tells Crain’s Chicago Business that Tempus is already generating “significant” revenue. “Our oldest partners, have, in most cases, now expanded to different subgroups (of cancer). What we’re doing is working.”
Investors in the latest round include Baillie Gifford; Revolution Growth; New Enterprise Associates; funds and accounts managed by T. Rowe Price; Novo Holdings; and the investment management company Franklin Templeton.
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Heathcare kiosks, a home-cooked food marketplace, and a way for startups to earn interest on their funding topped our list of high-potential companies from Y Combinator’s Winter 2019 Demo Day 2. 88 startups launched on stage at the lauded accelerator, though some of the best skipped the stage as they’d already raised tons of money.
Be sure to check out our write-ups of all 85 startups from day 1 plus our top picks, as well as the full set from day 2. But now, after asking investors and conferring with the TechCrunch team, here are our 9 favorites from day 2.
Two months ago, California passed the first law in the country legalizing the sale of home cooked food. Shef creates a marketplace where home chefs can find nearby customers. Shef’s meals cost around $6.50 compared to $20 per meal for traditional food delivery, and the startup takes a 22 percent cut of every transaction. It’s been growing 50 percent week over week thanks to deals with large property management companies that offer the marketplace as a perk to their residents. Shef wants to be the Airbnb of home cooked food.
Why we picked Shef: Deregulation creates gold rush opportunities and Shef was quick to seize this one, getting started just days after the law passed. Food delivery is a massive megatrend but high costs make it unaffordable or a luxury for many. If a parent is already cooking meals for their whole family, it takes minimal effort to produce a few extra portions to sell to the neighbors at accessible rates.

This startup automates the collection process of unpaid construction invoices. Construction companies are often forced to pay for their own jobs when customers are late on payments. According to Handle, there are $104 billion in unpaid construction invoices every year. Handle launched six weeks ago and is currently collecting $22,800 in monthly revenue. The founders previously launched an Andreessen Horowitz-backed company called Tenfold.
Why we picked Handle: Construction might seem like an unsexy vertical, but it’s massive and rife with inefficiencies this startup tackles. Handle helps contractors demand payments, instantly file liens that ensure they’re compensated for work or materials, or exchange unpaid invoices for cash. Even modest fees could add up quickly given how much money moves through the industry. And there are surely secondary business models to explore using all the data Handle collects on the construction market.

This pediatric telemedicine company provides medical care instantly to families. Blueberry provides constant contact, the ability to talk to a pediatrician 24/7 and at-home testing kits for a total of $15 per month. They’ve just completed a paid consumer pilot and say they were able to resolve 84 percent of issues without in-person care. They’ve partnered with insurance providers to reduce ER visits.
Why we picked Blueberry: Questionable emergency room visits are a nightmare for parents, a huge source of unnecessary costs, and a drain on resources for needy patients. Parents already spend so much time and money trying to keep their kids safe that this is a no-brainer subscription. And the urgent and emotional pull of pediatrics is a smart wedge into telemedicine for all demographics.

Led by a team of YC alums behind Raven, an AI startup acquired by Baidu in 2017, rct studio is a creative studio for immersive and interactive film. The platform provides a real time “text to render “engine (so the text “A man sits on a sofa” would generate 3D imagery of a man sitting on a sofa) that supports mainstream 3D engines like Unity and Unreal, as well as a creative tool for film professionals to craft immersive and open-ended entertainment experiences called Morpheus Engine.
Why we picked rct studio: Netflix’s Bandersnatch was just the start of mainstream interactive film. With strong technology, an innovative application, and proven talent, rct could become a critical tool for creating this kind of media. And even if the tech falls short of producing polished media, it could be used for storyboards and mockups.

Provides “Apple level” treasury services to startups. Startups are raising a lot of money with no way to manage it, says Interprime. They want to help these businesses by managing these big investments by helping them earn interest on their funding while retaining liquidity. They take a .25 percent advisory fee for all the investment they oversee. So far, they have $10 million in investment capital they are servicing.
Why we picked Interprime: The explosion of early stage startup funding evidenced by Y Combinator itself has created new banking opportunities. Silicon Valley Bank is ripe for competition and Interprime’s focus on startups could unlock new financial services. With Interprime’s YC affiliation, it has access to tons of potential customers.
NabisNabis is tackling the cannabis shipping and logistics business, working with suppliers to ship out goods to retailers reliably. It’s illegal for FedEx to ship weed so Nabis has swooped in and is helping ship and connect while taking cuts of the proceeds, a price the suppliers are willing to pay due to their 98 percent on-time shipping record.
Why we picked Nabis: Quirky regulation creates efficiency gaps in the marijuana business where incumbents can’t participate since they’re not allowed to handle the flower. As more states legalize and cannabis finds its way into more products, moving goods from farm to processor to retailer could spawn a big market for Nabis with a legal moat. It’s already working with many top marijuana brands, and could sell them additional services around business intelligence and distribution.

This startup measures weather damage for insurance companies. WeatherCheck has secured $4.7 million in annual bookings in the five months since it launched to help insurance carriers reduce their overall claims expense. To use the service, insurers upload data about their properties. WeatherCheck then monitors the weather and sends notifications to insurance companies, if, for example, a property has been damaged by hail.
Why we picked WeatherCheck: Extreme weather is only getting worse due to climate change. With 10.7 million US properties impacted by hail damage in 2017, WeatherCheck has found a smart initial market from which to expand. It’s easy to imagine the startup working on flood, earthquake, tornado, and wildfire claims too. Insurance is a fierce market, and old-school providers could get a leg up with WeatherCheck’s tech.

Upsolve wants to help low-income individuals file for bankruptcy more easily. The non-profit service gets referral fees from pointing non low-income families to bankruptcy lawyers and is able to offer the service for free. The company says that medical bills, layoffs and predatory loans can leave low-income families in dire situations and that in the last 6 months, their non-profit has alleviated customers from $24 million in debt.
Why we picked Upsolve: Financial hardship is rampant. With the potential for another recession and automation threatening jobs, many families could be at risk for bankruptcy. But the process is so stigmatized that some people avoid it at all costs. Upsolve could democratize access to this financial strategy while inserting itself into a lucrative transaction type.

This startup makes health kiosks for India, meant to be installed in train stations. Co-founder Joginder Tanikella says that there are 600,000 preventable deaths in India as many in the region don’t get regular doctor checkups. “But everyone takes trains,” he says. Their in-station kiosk measures 21 health parameters. The company made $28,000 in revenue last month. Charging $1 per test, Tanikella says each machine pays for itself within 3 months. In the future, the kiosks will allow them to sell insurance and refer users to doctors.
Why we picked Pulse: Telemedicine can’t do everything, but plenty of people around the world can’t make it in to a full-fledged doctor’s office. Pulse creates a mid-point where hardware sensors can measure body fat, blood pressure, pulse, and bone strength to improve accuracy for diagnosing diabetes, osteoarthritis, cardiac problems, and more. Pulse’s companion app could spark additional revenue streams, and there’s clearly a much bigger market for this than just India.

-Allo, a marketplace where parents can exchange babysitting and errand-running
-Shiok, a lab-grown shrimp substitute
-WithFriends, a subscription platform for small retail businesses
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More Y Combinator coverage from TechCrunch:
Additional reporting by Kate Clark, Lucas Matney, and Greg Kumparak
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Venture investors are pouring billions of dollars into feeding their hunger for food and agriculture startups. Whether that trend line is due to enthusiasm for the sector or just broader heavy investing in the VC space is much less clear.
According to a recent report published by AgFunder – a VC and investing marketplace focused on the agriculture and food sectors – the “AgriFood” space is booming. Using data from Crunchbase and several other data partners, the organization published its “2018 AgriFood Tech Investing Report” this morning, finding that investment in AgriFood companies increased 43% year-over-year, reaching $16.9 billion in 2018.
AgFunder classifies AgriFood tech as “the small but growing segment of the startup and venture capital universe that’s aiming to improve or disrupt the global food and agriculture industry.” Their definition is intentionally broad, encompassing everything from crop and livestock biotech, property management systems, and payments, to biomaterials and meat alternatives, all the way up to tech platforms for restaurants, grocers, deliveries and at-home cooks.
While some of the AgriFood tech categories – such as delivery or restaurant software – have long been popular destinations for venture capital, we’re now seeing a more diverse array of startups innovating across the entire food supply chain. According to the report, expansion in AgriFood is fairly consistent across upstream (agricultural and farming) subsectors to downstream (more consumer-facing) subsectors, with each group growing roughly 44% and 42% year-over-year respectively.
The data also shows growth occurring across almost all deal stages. AgriFood saw huge increases in the average deal size and total investment for late-stage companies in particular, as venture-backed startups have grown to global scale. And penetrating and attracting capital from international markets seems more feasible than ever. AgriFood investing, which traditionally has been largely US-centric, is rapidly becoming a global phenomenon, with more than half of total funding – and some of the largest rounds – now coming from companies and investors outside the US.
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