Members of Kung Fu Perform Funky “Hot ‘Lanta” Tribute To Butch Trucks [Watch]

first_imgLast night was a difficult day for rock & roll, and most anyone who had the chance to play music played in honor of Butch Trucks and the Allman Brothers Band. Such was the case for Adrian Tramontano (drums), Chris DeAngelis (bass), Rob Somerville (saxophone) of Kung Fu, and keyboardist Cyrus Madan (Deep Banana Blackout) last night.The BRYAC Funk All Stars came together in Bridgeport, CT last night and played a funky version of “Hot ‘Lanta” in memory of Butch & the Allmans, with special guest Sammy Blanchette (CK3, Hubinger St, Fattie Roots) on guitar. You can watch the performance below, courtesy of YouTube user stublatt:Butch Trucks had an influence on many musicians, and the memories continue to share throughout social media. Adrian Tramontano had this to say about the loss:last_img read more

Global race to a COVID-19 vaccine

first_img Designing a coronavirus vaccine In a related effort, researchers at HMS’s Blavatnik Institute and at the Brigham hope to use an antibody-detection tool called VirScan — which they adapted to recognize antibodies for the novel coronavirus in people’s blood — to help scientists working on vaccines identify which viral antibodies the immune system best responds to and which don’t affect the virus.“[VirScan] can help you follow a vaccine to see how well it’s making antibodies and what kinds of antibodies,” said Stephen Elledge, the Gregor Mendel Professor of Genetics and of Medicine at HMS and Brigham and Women’s, who developed the tool in 2015 with two Ph.D. candidates in his lab. “A lot of the antibodies you make are just useless. They don’t do anything to the virus or hurt the virus and they don’t help it. They’re just neutral. They’re there. Sometimes they even make it easier for the virus to get into certain cell types … The idea would be that you would try to remove them from the vaccine, because they’re competing with the neutralizing antibodies in the vaccine just as much as they would be with the actual virus.”While he hopes this effort takes off, Elledge’s primary focus is on using VirScan as a post-infection tool to study the outbreak’s true extent, lethality, and epidemiology, and learn how the virus affects the immune system.For Barouch, having multiple coronavirus vaccine-related efforts are crucial, since no one group has all the expertise and each vaccine will have pros and cons.“We don’t yet know which vaccine is ultimately going to be the safest, the most effective, and the most deployable,” Barouch said. “Ultimately, if we have two or more vaccines that become available for COVID-19, that would be a good thing because each vaccine is different. For example, some vaccines might be very effective in the elderly; some might not. Some might be easier to produce at mass scale; some might not. Some might be single-dose regimens, some might be multiple-dose regimens. Each vaccine is going to have its own particular characteristics.” A multipronged attack against a shared enemy Harvard scientists take various approaches in the race for a treatment for the deadly coronavirus In Dan Barouch’s lab, many researchers have not taken a day off since early January, and virtually all are working nearly seven days week to develop a vaccine that could help end the coronavirus pandemic.“Everybody wants to contribute to this global crisis as best they can,” said Barouch, director of the Center for Virology and Vaccine Research at the Beth Israel Deaconess Medical Center and professor of medicine at Harvard Medical School.The team hopes their work will be worth it. There is cause for optimism.The lab developed a vaccine in collaboration with Janssen Pharmaceutical Cos., the drug-making arm of Johnson & Johnson. It plans to launch clinical trials in the fall as part of a joint $1 billion collaboration agreement announced by the U.S. government and Johnson & Johnson on March 30.And the push by Barouch’s group is far from the only one out there. There are currently more than 40 in development around the world, according to the Milken Institute, an independent economic think tank in California. The approaches are varied, but all involve training the body’s immune system to recognize and remember the virus and produce antibodies to fight the disease.Most of the work at Harvard is in its early stages and includes a number of different vaccine methods. Barouch’s lab at Beth Israel is the first to move toward clinical trials so far.Like everyone working on this, “We want to move as fast as we possibly can, because we think the world needs a vaccine,” said Barouch ’93, M.D. ’99 . He co-leads the vaccines working group at Harvard’s Massachusetts Consortium on Pathogen Readiness and is also a steering committee member of the Ragon Institute of MGH, MIT, and Harvard.,A project at the Cambridge biotech Moderna uses the virus’ genetic code to trigger an immune response. It began clinical trials in Seattle on March 16 and was produced in just 63 days. Andrea Carfi, Moderna’s head of research, co-leads the vaccines working group at the consortium with Barouch.Barouch’s lab began working on two vaccines right after scientists from China published the gene sequence of the coronavirus. It’s been a frenzy since.That first weekend, the team quickly identified the protein spike as the target region for a vaccine — the coronavirus gets its name from the crown-like spikes on its surface. By Monday, Jan. 13, they had designs for vaccine constructs and created synthetic viral genes. At the end of the month, the lab started a collaboration with Janssen using one of the company’s approaches. Basically it involves transporting an adenovirus that causes a common cold, coated with coronavirus antigens, into cells to stimulate the immune system to produce antibodies. By Feb. 6, the group started testing the vaccines in animals.Barouch’s lab was able to work so quickly on this method because it has spent the past 15 years working on HIV and, more recently, Zika vaccines using the same approach. The hospital has collaborated with Janssen on vaccines in the past.In mid-February the lab began collaborating with the Chinese Center for Disease Control and Prevention on their other vaccine strategy. That one is DNA-based. Like RNA vaccines, it uses the genetic material of the virus to produce an inoculant that mimics it, helps the body identify it, and create antibodies to fight and neutralize it.At the Precision Vaccines Program (PVP) at Boston Children’s Hospital, Director Ofer Levy, professor of pediatrics at HMS, and other researchers — including David Dowling, an HMS pediatrics instructor — are working toward developing age-specific vaccines.“Most vaccine development disregards species specificity or aid specificity during the preclinical phase,” Levy said. “We’re turning the process on its head. We’re saying who most suffers from coronavirus? It’s the elderly. We take elderly white blood cells, blood donations, test them outside the body, stimulate them with different small molecules called adjuvants [which are added to a vaccine to boost the recipient’s immune response], and then find out which would work best in an elderly individual.”,The group hopes to build a vaccine targeting infants, as well. “Infants can get infected and can have bad outcomes, but also they can spread the infection to others,” Levy said.Their work is supported by National Institute of Allergy and Infectious Disease.In the labs of Mahmoud Nasr and Gerhard Wagner, the Elkan Blout Professor of Biological Chemistry and Molecular Pharmacology at HMS, researchers have just started work on what’s called a subunit vaccine. In these vaccines, scientists only use the essential antigens from a virus, said Nasr, a principal investigator in the renal division and division of engineering in medicine at Brigham and Women’s Hospital.Wagner and Nasr hope to create a vaccine where several copies of the coronavirus spike proteins are placed in large phospholipid nanodiscs that can elicit a strong antibody response by mimicking the large number of spikes of the virus and their position in a membrane. It has been shown that presenting numerous antigens on a membrane environment produces a stronger response than using non-membrane-bound proteins. This method will likely require adjuvants and multiple doses to elicit a strong enough immune response that provides long-term immunity.At Harvard’s Wyss Institute for Biologically Inspired Engineering, researchers hope to create bioactive material that cues a stronger immune response against the coronavirus. They hope the vaccine both kills the virus in infected individuals and helps uninfected individuals develop longer-lasting immunity without the need for additional boosts. Led by David Mooney, a Wyss core faculty member and the Robert P. Pinkas Family Professor of Bioengineering at Harvard John E. Paulson School of Engineering and Applied Sciences, the team previously created cancer vaccines that prompted the immune system to attack and destroy cancer cells. Other efforts at the Wyss focus on diagnostics and therapeutics. “We want to move as fast as we possibly can, because we think the world needs a vaccine.” — Dan Barouch Facing a pandemic, Broad does a quick pivot How the institute converted a clinical processing lab into a large-scale COVID-19 testing facility in a matter of days Researchers prepare for next year and beyond Relatedlast_img read more

Drewry: Asia-West Africa Trade on Recovery Path

first_imgThe outlook for the Asia-West Africa trade is improving, but there is much ground still to recover, shipping consultancy Drewry said.Container throughput during the third quarter of this year in the southbound Asia to West Africa trade grew at its fastest rate since the last period of 2014, rising by 7% year-on-year.This built on the 3% growth recorded in the second quarter, which marked the first upswing in over two years. The latest figures yielded a year-to-date growth rate of 3.2% with volumes landing just over 900,000 TEU after nine months.As this trade is highly exposed to the vagaries of the oil market, with the major oil exporting nations in West Africa being highly dependent on foreign exchange earnings to fund imports, the rise in container volumes seen in 2017, therefore, can be partly attributed to the rising oil market.Prompted by improving volumes and freight rates, operators in the Asia-West Africa trade introduced a large slug of additional capacity to the market from August, which led a drop of 25% in the value of spot market freight rates.Looking forward, this trade is set to see similar volumes in 2018 as well, with some modest growth potential.“While the demand outlook is improving there is little reason to expect any great surge in inbound volumes into West Africa next year. Having got greedy, carriers will be more wary of adding too much capacity to this trade in one hit in the future,” Drewry concluded.last_img read more

Bhabarnab wins two medals in National Poomse Taekwondo Championship

first_imgOur Sports ReporterGUWAHATI: Bhabarnab Sandilya from Assam bagged two medals in the Sub Junior National Poomse Taekwondo Championship held recently in Hyderabad. Among the two medals one is gold which Bharbarnab won in Sub Junior Poomsae pair event. In Poomse Individual category Bhabarnab bagged the other medal which was a silver.Also Read: Sports Newslast_img