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Chemistry World November 27, 2008 Lewis Brindley	Bryostatin Synthesis Made Simple US chemists have dramatically shortened the synthesis of byrostatin 16, one of a family of natural products that show promising activity against cancer but can't easily be extracted from nature or made artificially.
Chemistry World January 29, 2014	Organic matter: Indoxamycins A, C and F In 2012, Erick Carreira's group in Zurich reported the total synthesis of indoxamycin B. 1 This 24-step organometallic tour de force resulted in a structural reassignment and set the bar rather high for future work on this family.
Chemistry World February 2011 Paul Docherty	Column: Totally Synthetic Although most of the natural products I've discussed have had biological activity at the core of the rationale for their synthesis, most organic chemists will admit that an unusual chemical structure is by far the stronger draw.
Chemistry World September 20, 2007 Lewis Brindley	New Catalyst Rings the Changes Organic chemists in the US have developed a method to control the stereochemistry of a useful intramolecular Diels-Alder reaction.
Chemistry World February 4, 2011 Elinor Richards	Strychnine in just six steps Strychnine, best known as a poison but also used medicinally as a stimulant, can now be synthesised in just six steps, say US scientists.
Chemistry World November 1, 2007 Richard Van Noorden	Step Change for Organic Synthesis US chemists discovered how to attack a complex molecule's unreactive carbon-hydrogen bonds, without resorting to wasteful synthetic aids like protecting and directing groups.
Chemistry World July 2008 Paul Docherty	Column: Totally Synthetic The target is hypocrellin A, which couldn't look much less like last month's callipeltoside A. Even a casual glance reveals one intriguing feature of this target - the fact it exists in equilibrium with an isomer.
Chemistry World February 21, 2007 Tom Westgate	Complex Organic Molecules Teamed with Iodine Chemists have developed a method for constructing complex halogen-containing organic molecules from simple compounds in a single step. The discovery could pave the way for the synthesis of many potentially useful naturally occurring molecules.
Chemistry World June 11, 2008 James Mitchell Crow	New Hope for Anticancer Agent The mode of action of a rare natural product with promising cytotoxic activity has been revealed by scientists in the US while a UK group have come up with a particularly efficient chemical synthesis.
Chemistry World May 8, 2014	Mandelalide A The recent synthesis of the proposed structure of mandelalide A is a good example of a well-designed route that seamlessly integrates some cutting-edge chemistry.
Chemistry World May 2010 Paul Docherty	Column: Totally Synthetic In the case of englerin A, the synthetic strategies used by Dawei Ma's group at the Chinese Academy of Sciences, Shanghai, China, 1 and Antonio Echavarren's team at Rovira and Virgili University, Tarragona, Spain, 2 are extremely similar.
Chemistry World August 2011 Paul Docherty	Column: Totally Synthetic Yuanhuapin, a fabulously complex member of the daphnane diterpene orthoester class of natural products, bears an astonishing twelve contiguous stereogenic centres around its seven rings (look closely!).
Chemistry World September 6, 2006 Michael Gross	Selective Shortcut Chemists have developed a simple catalyst that speeds up the synthesis of a chiral protected building block used in many complex syntheses.
Chemistry World August 30, 2009 Phillip Broadwith	C-H oxidation proves its worth US researchers are going against the grain of total synthesis and developing new approaches to complex molecules.
Chemistry World July 6, 2006 Michael Gross	Insecticide Simplified A rapid, flexible way to make variants of potent insecticide molecules known as spinosyns could help to combat the growing problem of insect resistance, according to German chemists.
Chemistry World March 21, 2007 Alison Stoddart	Synthesis Strategy Offers no Protection A radically different approach to constructing complex molecules could help to tap the pharmaceutical potential of natural products.
Chemistry World May 29, 2013 Paul Docherty	Pactamycin A member of a 'rival' field stating that a molecule is 'inaccessible by synthetic organic chemistry' is like a red rag to the proverbial bull. This challenge surrounds analogs of pactamycin, a complex cyclopentane-based target with an exceptionally potent biological profile.
Chemistry World January 2009 Paul Docherty	Column: Totally Synthetic In the search for new biologically active natural products, sometimes a team isolating a new compound family will be lucky enough to find one active member.
Chemistry World November 17, 2008 Simon Hadlington	Catalyst flexes for extra control US chemists have developed a new type of catalyst capable of exerting high stereochemical control over olefin metathesis reactions
Chemistry World July 30, 2013 Paul Docherty	Melotenine A Chirality, where would we be without you? Often the bane of the synthetic chemist's life, the challenge of asymmetry is perhaps what makes total synthesis so endlessly intriguing.
Chemistry World March 25, 2011 Simon Hadlington	New synthesis for chiral anticancer compound The promising anticancer compound nutlin-3 is likely to become more widely available to researchers thanks to a new synthetic protocol developed by US chemists.
Chemistry World August 2007 Derek Lowe	Opinion: In the Pipeline Process chemists just don't get the credit they deserve.
Chemistry World August 1, 2013 James Urquhart	Total synthesis outshines biotech route to anticancer drug US scientists have developed the first efficient and scalable route for the total synthesis of ingenol -- a plant-derived diterpenoid used to treat precancerous skin legions.
Chemistry World December 2009 Paul Docherty	Column: Totally Synthetic What turns a good synthesis into a great synthesis are the steps surrounding that motif, something that Darren Dixon from the University of Oxford, UK, exemplifies with this synthesis of Nakadomarin A.
Chemistry World November 2010	Carbon Couplers Take the Prize Three giants of organic chemistry, who pioneered palladium-catalysed cross coupling reactions, have shared this year's Nobel prize.
Chemistry World February 2011	Column: In the pipeline Enzymes have been giving chemists inferiority complexes since day one, says Derek Lowe. But there's no denying their potential
Chemistry World November 3, 2008 Simon Hadlington	Organic synthesis set for auto-pilot Peptides are routinely made by machines that couple together amino acid components. Could organic synthesis ever get this simple?
Chemistry World March 27, 2008 James Mitchell Crow	Industrial-Scale Dendrimer Production Cracked A new synthetic route that can produce dendrimers in kilogram quantities has been developed by scientists in the US.
Chemistry World June 13, 2008 Richard Van Noorden	Asymmetric ketone catalysis gets pharma-scale makeover An asymmetric catalysis reaction limited to laboratory syntheses has received a makeover that could see it used on a large scale by drug-makers.
Chemistry World March 21, 2007 Richard Van Noorden	Forcing a Reaction US chemists have forced molecules to react by ripping their bonds apart with ultrasound. The scientists carefully stretched one targeted bond until it snapped, guiding the molecule's subsequent reaction into pathways forbidden by conventional chemistry.
Chemistry World June 2010 Paul Docherty	Column: Totally Synthetic Although its chemistry is mature and varied, my use of silicon reagents in my synthetic forays has been limited to a somewhat clumsy use of hydroxyl protecting groups.
Chemistry World June 1, 2006 Michael Gross	New Twists on Catalysis Chemists around the world have discovered several new twists to improve the performance of asymmetric catalysts in hydrogenation reactions.
Chemistry World April 2010 Paul Docherty	Column: Totally Synthetic When one attempts the first synthesis of a natural product, the set of challenges are often unknown; which intermediates are either inaccessible or unstable, for instance.
Chemistry World January 21, 2013 Michael Parkin	Flow synthesis for anticancer drug UK chemists have used a combination of flow chemistry methods with solid-supported scavengers and reagents to synthesize the active pharmaceutical ingredient, imatinib, of the anticancer drug Gleevec.
Chemistry World August 2008 Paul Docherty	Column: Totally Synthetic Impersonating nature isn't easy, and biomimetic syntheses are remarkable in two senses.
Chemistry World January 27, 2010 Phillip Broadwith	Cracking carbon-carbon bonds Chemists in the US have discovered a tungsten complex that can break a strong carbon-carbon bond in an aromatic ring.
Chemistry World October 2008 Paul Docherty	Column: Totally Synthetic Samuel Danishefsky of Columbia University (and the Sloan-Kettering Institute for cancer research), has focused on function rather than family. His many synthetic conquests are unified by their cancer-busting potential.
Chemistry World February 21, 2008 Lewis Brindley	Esters Made Easy with Indium Indium is the basis of a novel catalyst designed to make useful cyclic esters. This catalyst could greatly simplify the production of chiral dihydropyranones, important structural elements in many natural products and pharmaceuticals.
Chemistry World July 26, 2007 Tom Westgate	Counterion Does the Twist US chemists have achieved a breakthrough in the design of catalysts that selectively produce chiral compounds.
Chemistry World November 16, 2012 Yuandi Li	(+)-Myrrhanol C made Spanish chemists have completed the stereospecific total synthesis of (+)-myrrhanol C. This compound is a natural triterpene isolated from mastic gum, a substance well known for its medicinal properties as well as use in various cuisines.
Chemistry World November 24, 2011 Elinor Richards	Blocking cancer's path A concise synthesis of the natural product rasfonin could reignite interest in this molecule as a tool to develop cancer drugs, say scientists from the Netherlands.
Chemistry World November 2007 Dylan Stiles	Column: Bench Monkey Total synthesis is not immune to the vagaries of fickle fashion.
Chemistry World August 10, 2007 Richard Van Noorden	Azadirachtin Sees First Total Synthesis A complex natural product has finally succumbed to its first total synthesis after 22 years of attempts by eminent organic chemists.
Chemistry World September 4, 2008 Fred Campbell	Two catalysts better than one US researchers have cracked a long standing problem in chemical synthesis - the catalytic alpha-alkylation of aldehydes - by combining two catalysts in one pot.
Chemistry World April 10, 2008 Mark Peplow	'Pot-in-a-Pot' Technique Makes Impossible Cascade Reactions Easy A simple technique that nests a series of reaction vessels could help chemists avoid the tedium and expense of purifying organic compounds after each step of a long synthesis.
Chemistry World July 14, 2011 Simon Hadlington	Natural Products Made Via a Single Parent Molecule Chemists in the US have taken inspiration from nature to devise a new concept for rapidly and efficiently synthesising structurally diverse natural products from a single common precursor.
Reactive Reports September 2007 David Bradley	Insecticidal Synthesis The efforts of 40 PhD chemistry students and many others have found a way to construct azadirachtin -- a natural insecticide from the neem tree -- in a total synthesis of 64 individual chemical reaction steps.
Chemistry World August 2010 Paul Docherty	Column: Totally Synthetic The total synthesis of macrolide targets is now a relatively mature field. Any synthesis that bucks these trends grabs attention, with a recent publication of dictyosphaeric acid A by Richard Taylor's team at the University of York, UK, a case in point.
Chemistry World August 20, 2008	Gold's Magic Number A new gold catalyst developed by UK chemists can catalyse hydrocarbon oxidation, using O 2 as the only oxidant. But catalyst particle size is critical - above 2nm diameter, the catalyst loses all activity.
Chemistry World November 2008 Paul Docherty	Column: Totally Synthetic Vannusal B -- This is a classic case of misassigned identity - the structure published by the researchers who first isolated the compound from its natural source has been recreated via total synthesis, and found wanting.