Dubai is a city and emirate in the United Arab Emirates known for luxury shopping, ultramodern architecture and a lively nightlife scene. Burj Khalifa, an 830m-tall tower, dominates the skyscraper-filled skyline. At its foot lies Dubai Fountain, with jets and lights choreographed to music. On artificial islands just offshore is Atlantis, The Palm, a resort with water and marine-animal parks.
Burj Khalifa – The 828-meter-tall Burj Khalifa is the tallest building in the world. Everything about this majestic structure spells out opulence: the exquisitely landscaped Burj Khalifa park and the giant fountain system with its fifty colored projectors and over 6,000 lights. Check in at one of the hotels in Burj Khalifa and join the At the Top tour to watch the spectacular view of the metropolis from the observation deck.
Palm Jumeirah – Choose from any of the numerous hotels and resorts at Palm Jumeirah, a manmade archipelago that had cost $12.3 billion to make off the coast of Dubai. Shaped like a palm leaf, the artificial island’s fronds are home for many residential villas. Palm Jumeirah has scenic marinas, several luxury resorts and spas, as well as many upscale shopping districts.
Dubai Marina – This popular Dubai tourist attraction sports a breathtaking skyline, a picturesque beach, and numerous shops, restaurants, and coffee shops. Tour Dubai Marina’s two major walkways, The Marina Walk and The Walk, and then join a cruise on a yacht.
Wild Wadi Waterpark – If you travel with kids, consider spending a day at the Wild Wadi Waterpark. Beat the sweltering desert climate of Dubai with a frolic at the park’s water rides and waterfalls.
Deepspot is a diving pool that goes 45.5m (150ft) down and provides a space for divers to train. It includes a ship wreck and separate chambers for divers to explore. Deepspot’s president said he hopes the pool will also be used for training by firefighters and the army, not just scuba divers.
The ‘culture of Paris concerns the arts, music, museums, festivals and other entertainment in Paris, the capital city of France. The city is today one of the world’s leading business and cultural centers; entertainment, music, media, fashion, and the arts all contribute to its status as one of the world’s major global cities.
A variety of landmarks and objects are cultural icons associated with Paris, such as Eiffel Tower, Notre Dame de Paris and Opéra Garnier. Many of Paris’ once-popular local establishments have come to cater to the tastes and expectations of tourists, rather than local patrons. Le Lido, the cabaret-dance hall, for example, is a staged dinner theater spectacle, a dance display that was once but one aspect of the cabaret’s former atmosphere. All of the establishment’s former social or cultural elements, such as its ballrooms and gardens, are gone today. Much of Paris’ hotel, restaurant, and night entertainment trades have become heavily dependent on tourism.
I have such a strong admiration for the diverse formations and complex patterns of the American Southwest that truly make you feel like you’re on another planet.
The Southwestern United States (called the American Southwest or simply the Southwest) is a region of the western United States. The region is warmer than the northern states and drier than the eastern states. The area includes Arizona and New Mexico, sometimes called the “Desert Southwest.” Often counted as part of the Southwest are Southern California, parts of Nevada, Utah, and Colorado and western Texas. The Southwest has seen large amounts of growth in recent years, both the Phoenix, Arizona and Las Vegas, Nevada areas are amongst the fastest growing in the country.
The weekend’s defining discussion topics with Tyler Brûlé, Christof Münger, Eemeli Isoaho, Mark Dittli and our Tokyo bureau chief Fiona Wilson. Plus, Monocle’s style director Marcela Palek’s Christmas gift tips.
From Milan: Salone highlights, interviews and a daily running guide.
Darling Harbour is a harbour adjacent to the city centre of Sydney, New South Wales, Australia that is made up of a large recreational and pedestrian precinct that is situated on western outskirts of the Sydney central business district.
Finding medicines that can kill cancer cells while leaving normal tissue unscathed is a Holy Grail of oncology research. In two new papers, scientists at UC San Francisco and Princeton University present complementary strategies to crack this problem with “smart” cell therapies—living medicines that remain inert unless triggered by combinations of proteins that only ever appear together in cancer cells.
Biological aspects of this general approach have been explored for several years in the laboratory of Wendell Lim, PhD, and colleagues in the UCSF Cell Design Initiative and National Cancer Institute– sponsored Center for Synthetic Immunology. But the new work adds a powerful new dimension to this work by combining cutting-edge therapeutic cell engineering with advanced computational methods.
For one paper, published September 23, 2020 in Cell Systems, members of Lim’s lab joined forces with the research group of computer scientist Olga G. Troyanskaya, PhD, of Princeton’s Lewis-Sigler Institute for Integrative Genomics and the Simons Foundation’s Flatiron Institute.
Using a machine learning approach, the team analyzed massive databases of thousands of proteins found in both cancer and normal cells. They then combed through millions of possible protein combinations to assemble a catalog of combinations that could be used to precisely target only cancer cells while leaving normal ones alone. In another paper, published in Science on November 27, 2020, Lim and colleagues then showed how this computationally derived protein data could be put to use to drive the design of effective and highly selective cell therapies for cancer.
“Currently, most cancer treatments, including CAR T cells, are told ‘block this,’ or ‘kill this,’” said Lim, also professor and chair of cellular and molecular pharmacology and a member of the UCSF Helen Diller Family Comprehensive Cancer Center. “We want to increase the nuance and sophistication of the decisions that a therapeutic cell makes.”
Over the past decade, chimeric antigen receptor (CAR) T cells have been in the spotlight as a powerful way to treat cancer. In CAR T cell therapy, immune system cells are taken from a patient’s blood, and manipulated in the laboratory to express a specific receptor that will recognize a very particular marker, or antigen, on cancer cells. While scientists have shown that CAR T cells can be quite effective, and sometimes curative, in blood cancers such as leukemia and lymphoma, so far the method hasn’t worked well in solid tumors, such as cancers of the breast, lung, or liver.
Cells in these solid cancers often share antigens with normal cells found in other tissues, which poses the risk that CAR T cells could have off-target effects by targeting healthy organs. Also, solid tumors also often create suppressive microenvironments that limit the efficacy of CAR T cells. For Lim, cells are akin to molecular computers that can sense their environment and then integrate that information to make decisions. Since solid tumors are more complex than blood cancers, “you have to make a more complex product” to fight them, he said.
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