Can anyone tell me where people might get rid of around 70 pounds of Acrylic Sheet that was formerly used for covering a greenhouse?

Someone in my department is re-roofing his greenhouse and would like to get rid of the old roofing responsibly - ideas anyone?

It's a glorious day for regenerative medicine today. Researchers at the Howard Hughes Medical Institute (Harvard) reported in Nature that they have managed to convert adult enzyme-producing pancreatic cells into insulin-producing beta cells in living mice.

Here's the direct abstract:

One goal of regenerative medicine is to instructively convert adult cells into other cell types for tissue repair and regeneration. Although isolated examples of adult cell reprogramming are known, there is no general understanding of how to turn one cell type into another in a controlled manner. Here, using a strategy of re-expressing key developmental regulators in vivo, we identify a specific combination of three transcription factors (Ngn3 (also known as Neurog3) Pdx1 and Mafa) that reprograms differentiated pancreatic exocrine cells in adult mice into cells that closely resemble beta-cells. The induced beta-cells are indistinguishable from endogenous islet beta-cells in size, shape and ultrastructure. They express genes essential for beta-cell function and can ameliorate hyperglycaemia by remodelling local vasculature and secreting insulin. This study provides an example of cellular reprogramming using defined factors in an adult organ and suggests a general paradigm for directing cell reprogramming without reversion to a pluripotent stem cell state.

It's an amazing and important breakthrough because the prevalent idea in medical research is that:
a) Cells go from an undifferentiated embryonic state to a highly differentiated specialized state.
b) Once the cells commit to a specialized state, they cannot de-differentiate or revert back into an embryonic state anymore.
c) Highly specialized cells are thus imprisoned in their narrow specialized roles and cannot convert into other specialized cells

This was the basic reason why we thought that we needed exclusively stem cells or embryonic cells from fetuses to carry out research into generating specialized cells of our choice. We believed that only embryonic cells had the potency to transform into other cells. The Harvard scientists converted a regular pancreatic exocrine cell that usually secretes digestive pancreatic enzymes to an endocrine pancreatic cell that secretes insulin! This topples the whole belief-cart that only embryonic cells can do this.

I think regenerative research officially enters a new era with this cool little cellular role-reversal trick. How these scientists did it is even more fascinating. A mere THREE regulatory genes were transported into the pancreas using small vector viruses. These viruses preferentially infected the EXOCRINE cells of the pancreas and not the endocrine cells (that are found inside "islets" of the pancreas). Within ONE MONTH, the infected exocrine cells transformed into the endocrine insulin-secreting cells and they have continued to be endocrine insulin secreting cells for a complete NINE MONTHS now!



You can see the transformation in the photograph of the pancreatic tissue slice above. The red round spot is one islet (of langerhans) in the pancreas. This contains the endocrine insulin secreting cells. Within a month the same area changes to show that insulin-secreting cells have sprung up OUTSIDE the islet! One adult cell turns into another totally different adult cell!

As a simplified analogy, what they have managed to do is the cellular equivalent of turning a car (exocrine pancreatic cell) into a space-shuttle (endocrine islet cells) by just sending in three astronauts (vector-viruses) into the car to pull three levers (genes).

A couple years back, some Japanese scientists converted adult mice skin cells into stem cells but to reconvert them back into some other adult cell would have required a lot more manipulation. Considering the analogy above, it would be like converting the car into scrap metal first and then thinking about how to convert the scrap metal into the space shuttle. Do-able but yet, a step too many. This past experiment by the Japanese generated keys ideas for the Harvard group:

a) Relatively small number of genes could do the trick.
b) If the parent cell and the target cell shared a lot of common genes then maybe, just maybe the parent cell would directly convert into the target cell (and it did!).

They carefully sorted and drilled down through more than a thousand genes to finally arrive at three (Ngn3, Pdx1, and Mafa) transcription associated genes to do the transforming job.

And remember all this was done in LIVE MICE! So what happened to the mice? Some of these mice were diabetic and the additional surge of insulin from the converted cells *reduced the blood glucose levels* in these mice! Even better news was that the converted cells have stuck around for NINE months now. Nine months of blood-glucose control WITHOUT insulin injections or any other medication.

Though this research was carried out in mice, it is quite possible that it might be possible in humans as well. Some problems that the researchers are careful to point out are:

--> A vector virus was used to carry the genes inside the pancreas. What could we possibly use in humans? We cannot use a vector virus because its a LIVING organism that can potentially transform into something else infectious! The risk is just not worth it.

--> Can we use other unrelated cells to the same effect? In other words, if we need to build, say, a heart, would we need heart cells to start with or could we do with skin cells? Could these insulin-secreting cells have been generated from some other cells - other than closely related exocrine-enzyme-secreting pancreatic cells?

Till these questions are answered, we will need stem cells, embryonic cells and research using these cells (BACK OFF. GEORGE IDIOT BUSH!). We cannot just toss them in the trash. This new approach of converting one adult cell to another is very much an unknown angel. But what an awesome angel!! Their potential is mind-boggling! :)

I decided to take a break and set up my OpenID* today. I chose myvidoop.com as my OpenID delegate. I was somewhat surprised by the extremely elaborate and somewhat outlandish hoops of security they made me jump through, to register an OpenID. It was fun in a bizarre way.

First, they throw the standard registration questions at you.
Username:
Password:
DOB:

After you answer those, they take you to a panel of 12 image concepts called the ImageShield*, that looks like this:



You select three image concepts that serve as your "secret question". In future logins, the site would present the imageshield and to login successfully, you would need to spot and type in the codes that appear on your previously chosen image concepts. The images and codes change, but the concept of the image stays the same. For eg. the imageshield will always have a picture of a bird or birds associated with the concept of a "bird" and a picture of some automobile associated with the concept of a "car" etc.

I think the idea of an OpenID is, in itself, an interesting experiment in online security. The imageshield at vidoop makes it seem even more futuristic. Someday, we will all be Neos and Trinitys of the online world and our password to virtual space will be a unique personal combination of the white rabbit, our own demons and perhaps a dilated concept of time.



Identity thefts would either be a thing of the past or identity thieves would have caught up to the technology and have succeeded in scanning minds of passers-by to mine information about their guarded mindscapes. For now, OpenIDs are just a weirdly cool way of shouting out your virtual name from digital rooftops to a pixelated universe.
______________
The De-Jargon/De-Geek Zone
(formerly known as the footnote):

• What is OpenID: OpenID is a shared identity service, which allows Internet users to log on to many different web sites using a single digital identity, eliminating the need for a different user name and password for each site. OpenID is a decentralized, free and open standard that lets users control the amount of personal information they provide.

More information here:
a) What is OpenID:
b) Wiki for OpenID:
c) *ImageShield:

I forgot to take my camera to the Elmwood Festival but did photograph my lunch! :)

1. Appetizer: (A tiny portion of ) a HUMONGOUS pack of the most scrumptious Kettle corn - its almost as tall as I am! (The rest has been put away out of sight for the rest of the week).



2. Main Course: Most DELICIOUS Ciabatta Bread Veggie Medley Cheese Sandwich (Ciabatta bread from Lexington - I know. I know. I boycotted the place but I went in today and gave into temptation. They were just rolling this off the oven!)



3. Dessert: A Granny Smith all the way from New Zealand. Talk about a Godzilla like carbon footprint! :(



4. Contemplation: A steaming cuppa Mango tea with milk.
(Not pictured. I drank it up before I realized I hadn't photographed it! This is a view out my flat window, instead.)



Have an awesome evenin'!

I have to admit that I am confused. I have been confused since Clinton got impeached.

If your neighbour is quiet and non-intrusive, you don't care if he is cheating on his wife and doing "injustice" to his kids. You mind your own business. If your politician is doing his job, why should you not give him the same respect and non-censure? You could argue that his affairs might be used to blackmail him but of what use would a blackmail be if the public didn't care? What if we only cared about our politicians performing their jobs? Don't you think enough damage has been done not only to this country but millions abroad, by impeaching a relatively nice non-warring president over his personal affairs?

Even if your politician is not doing his job, is there any reason to dig up dirt on his personal life and mix it in with his performance on his job? Does your boss add a line on your annual performance report about your sexual partners and your affairs? Does your boss even care about your affairs if you do your job (or don't do your job)?

You could make a valid bitter case and complain if an extra-marital affair of any politician affected his performance of his job. Last I checked, politicians are not generally elected because they are a moral example. I don't see why affairs should even make it into any news source other than lurid tabloids that exist for such details. How is being a "moral (or even mortal) messenger" any different than being the paparazzi that hounded Diana to her death?

... asked Dr. Fing in (e:fing,45357). This little research snippet in today's issue of Science answers your question, at least partially:

Big leg bones from the Indonesian island of Flores show that the meter-high "hobbit" people (Homo floresiensis) who once lived there shared the island with enormous flesh-eating storks, researchers say.



Hanneke Meijer of the National Museum of Natural History in Leiden, the Netherlands, and Rokus Awe Due of the Indonesian Centre for Archaeology in Jakarta found the bones in Liang Bua cave in the same layers as the hobbits--dated to at least 18,000 years ago. They identified them as a new species of extinct giant marabou. The scientists say the 1.8-meter-tall bird was a carnivore and top predator on the island; whether hobbits were among its fare is open to speculation. They reported on the find this week at the meeting of the Society of Avian Paleontology and Evolution in Sydney, Australia.

So (e:carolinian)'s guess is probably more closer to truth than we'll ever know! The little people did exist at one point. Their extinction points to the fact that they were probably not very evolutionarily stable. Yeah, we were biologically fated to have kitchens with 9 - 10 foot (or higher) ceilings and similarly scaled counters and appliances.

(e:MrDeadlier)'s handiwork staring right back at me!!

Synchronized Cubicle Dancing
This has to be the most creative yet goofy video wishing good luck to the Russian synchronized swim team at the Olympics. :)



The "Official" Formuloid 1 Championship.

::Download Flash Video::

For more diversions e.g. a literal "Draughts" game and other crazy and borderline weird (but insanely hilarious) Official Olympoid efforts, check out this .

Quite strangely, very similar algorithms, statistics and probability models are used to generate Gene Ontology and Music Ontology Networks. Based on the structure of my music ontology tag-cloud network, can Science one day predict what kind of allelic variants (of genes) I carry? Or more importantly, can my musical tastes predict my reaction and response to medical treatments?



Intriguing... The possibilities are endless.

I was lazily skimming through some articles on pubmed when I found this

Harry Potter and the curse of headache.
Sheftell F, Steiner TJ, Thomas H.
The New England Center for Headache, Stamford, CT, USA
From the Abstract:
Headache disorders are common in children and adolescents. Even young male Wizards are disabled by them. In this article we review Harry Potter's headaches as described in the biographical series by JK Rowling. Moreover, we attempt to classify them. Regrettably we are not privy to the Wizard system of classifying headache disorders and are therefore limited to the Muggle method, the International Classification of Headache Disorders, 2nd edition (ICHD-II). Harry's headaches are recurrent. Although conforming to a basic stereotype, and constant in location, throughout the 6 years of his adolescence so far described they have shown a tendency to progression. Later descriptions include a range of accompanying symptoms. Despite some quite unusual features, they meet all but one of the ICHD-II criteria for migraine, so allowing the diagnosis of 1.6 Probable migraine.

Someone actually sat down and analyzed Harry Potter's headaches and categorized it according to the International Classification of Headache Disorders, 2nd edition (ICHD-II). The article received 4 comments from other scientific groups. It seemed rather unbelievable. So I read the article and to their credit, the authors use the rather flippant subject matter to point out that research in pediatric/adolescent headache is woefully inadequate.

Then I wondered if using Harry Potter was a trend in scientific publishing. And indeed, a search for Harry Potter in Pubmed turned up no less than 26 links including 2 reviews, some of them published in high impact journals. A search on Scopus lead to 46 results referencing Harry Potter including the fields of Medicine (17), Engineering (14), Neuroscience (6) Psychology (5) Pharmacology, Toxicology and Pharmaceutics (3) Multidisciplinary (3) Environmental Science (3) Computer Science (2) Materials Science (2) Chemistry (2) Chemical Engineering (1) Nursing (1) Biochemistry, Genetics and Molecular Biology (1) and Agricultural and Biological Sciences (1).

Another interesting article referencing the pediatric wizard was this

Origins of magic: review of genetic and epigenetic effects
Ramagopalan SV, Knight M, Ebers GC, Knight JC.
Wellcome Trust Centre for Human Genetics, University of Oxford, Oxford OX3 7BN.
From the abstract:
OBJECTIVE: To assess the evidence for a genetic basis to magic. DESIGN: Literature review. SETTING: Harry Potter novels of J K Rowling. PARTICIPANTS: Muggles, witches, wizards, and squibs. INTERVENTIONS: Limited. MAIN OUTCOME MEASURES: Family and twin studies, magical ability, and specific magical skills. RESULTS: Magic shows strong evidence of heritability, with familial aggregation and concordance in twins. Evidence suggests magical ability to be a quantitative trait. Specific magical skills, notably being able to speak to snakes, predict the future, and change hair colour, all seem heritable. CONCLUSIONS: A multilocus model with a dominant gene for magic might exist, controlled epistatically by one or more loci, possibly recessive in nature. Magical enhancers regulating gene expressionmay be involved, combined with mutations at specific genes implicated in speech and hair colour such as FOXP2 and MCR1.

It references no less than 7 Harry Potter books and in the process, does a very entertaining review of some of the basic principles of genetics and epigenetics.

I find such a trend very refreshing. It's high time we, as a scientific community, moved away from high-flown and quite incomprehensible jargon in our scientific publications. We owe it to every new student in science and to so many non-science people who fund our research. I think that science can be just as entertaining and simple to understand as the latest sci-fi movie on-screen. I am so tired of tolerating scientists who speak in notations and three-lettered jargon, make no effort to connect with their audience, assume everyone works in their lab or could care less whether their audience is awake, asleep or dead. It is very demotivating to sit through conference talks and lectures with these nasty representatives of the field that I love. They are a disgrace.

I am not claiming that I am, in any way, better than the scientists I have so merrily pulled down. However, I do claim that I want to be better and literary efforts such as those from the Harry Potter Scientific Club strengthen my belief that anyone can understand and convey science lucidly if they wished to.

My advisor strongly believes in the KISS principle -> K.eep I.t S.imple and S.tupid, when it comes to presentations. Some of the clearer explanations that I have read for topics in statistics have come from the "For Dummies" series. Though the words, "Stupid" and "Dummies" may have negative connotations for some, to me they mean that the author or the presenter understands the pain of the student and has made an effort to convey the science in the simplest way possible. In fact, I now believe that if I come away from a talk confused, I can partially attribute it to the fact that the presenter was confused as well.

Clear communication is what makes us all human and I really don't see any reason why science communication should be held at a different standard from daily speech. Some may argue that Science is a complicated field and hence, only insiders need understand it. But that is not the spirit of Science. If you are not able to explain your science in simple words and draw analogies, then perhaps you don't understand it as well as you thought.

Simplifying Science is not a simple task because you are faced with years and years of muddled explanations of other confused authors and teachers before you. In trying to stand on the shoulders of giants, you often find that the particular giant you picked has a fractured humerus and scapula. It is, quite undeniably, a challenge to make it all simple. However, challenges are not new to Science. So its hardly an excuse to not accept this particular one.

Just imagine how many headaches we could prevent if everyone in the scientific and academic communities made at least an effort to stomp their own simple way into science for everyone else to benefit from. Otherwise, there will be a decline in students who choose science as their future and it will not be because of the dullness of the subject but rather, the confusion of the presenter.