Monthly Archives: September 2017

Mentoring: A powerful tool

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By Virginia Gewin

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A free mentoring toolkit that helps female Middle Eastern scientists around the world to find and support one another is available online.

Rana Dajani, a molecular biologist based at Hashemite University in Zarqa, Jordan, developed the toolkit to inspire female researchers to build the networks they need to support, collaborate and advise one another as they move forward in their careers.

The number of female researchers in Middle Eastern countries varies wildly. A 2016 report found that women represent around 35.5% of total researchers in the 57 Organisation of Islamic Cooperation countries. Still, the numbers of employed women in some Middle Eastern countries are much lower. In Jordan and Algeria, just 12% of women work and in Saudi Arabia, 14% are employed.

Dajani built a mentoring network in Jordan in 2013, pairing 10 mentees with 10 mentors. From that experience, and with funding from the US National Academies of Science and the US National Science Foundation, she created ‘Three Circles of Alemat’, a three-year project to develop and test the mentoring toolkit. Working with female researchers from 17 universities across the Middle East, she and her team created a low-cost method to improve personal and professional success for both women and men. The final phase of her mentoring project, Three Circles of Alemat, brought together a cross-regional group of female Middle Eastern scientists this year in Boston, Massachusetts, at the annual American Association for the Advancement of Science conference.

The mentoring toolkit is available for free through the website of the Society for the Advancement of Science and Technology in the Arab World. Another organization, 500 Women Scientists, a network of 19,000 women worldwide, has also adopted the toolkit. “We did not want to provide a centralized forum for mentors to find mentees because it is costly,” says Dajani, who is spending this year as a fellow at Harvard University in Cambridge, Massachusetts, writing a book about women redefining success. “Rather, we wanted people to take control and start their own creative forums.”

Virginia Gewin is a freelance writer in Portland, Oregon.

 

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How to escape a ‘paint-by-numbers’ career

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Academia trains us to follow pre-defined paths when planning our careers, but the most exciting and rewarding careers are designed by their owners. If you’re willing to take some risk and create your own design, you can have a more exciting career than you ever imagined.

By David M. Giltner, PhD, Founder of TurningScience

If you’re like me, you entered university with a plan: to follow a career path that many had followed before. This is common, because school trains us to follow directions. Earning a degree involves predefined steps:

‘Complete this application adequately, and we will admit you.’

‘Answer this list of questions correctly, and you will pass the test.’

‘Pass this list of classes, and we will give you a degree.’

It’s natural to continue looking for a path to follow after graduation, but, in my view, that’s not how the most exciting careers are built. I’ve found my own way, founded a company, and enjoyed an immensely rewarding career along the way.

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Adios to academia

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By Virginia Gewin

US science and engineering PhD students are losing interest in academic careers because their career preferences change throughout their training, finds a study – not because of limited faculty-job availability.

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Different “Me”s open up a new world on a personal and scientific level

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Haruka Yuminaga’s experience moving back to Japan has been a challenge — but has helped her become a better scientist.

A light grey room is filled with 23 grey desks, scattered in pens and books. In one corner sits a refrigerator packed with snacks. Next to it is a rice cooker. The walls are covered in pictures of fun lab memories. Amidst the clutter, some students joke and laugh; chat with a professor about their experimental procedures; analyze data on their laptops and unconsciously wrinkle their brows.

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The Ushiba lab

It is a usual morning at the Ushiba lab where I’m doing an internship this summer. I am a rising junior at Macalester College in Minnesota, USA. Before spending two years in a U.S college, I spent all my life in Japan, and expected being back in a Japanese lab to feel natural. But my assumption was wrong.

Reverse culture shock

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Running blind: Raising awareness of visual impairment

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Science communication comes in many shapes and sizes, but running blindfolded for 10km is a novel way of raising awareness of your research area.

PhD student and vision researcher Joshua Chu Tan wanted to highlight  what life is like for people living with visual impairment (and raise funds to support research at the same time). He describes the experience as was one of the most challenging things he’s ever done.

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Do it for science – not for tenure

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Career advice from a Nobel Laureate

By Judith Reichel

I recently had the pleasure of joining the 67th Lindau Nobel Laureate meeting at Lake Constance in the south of Germany. The weeklong meeting alternates its main focus between chemistry, physics, and medicine & physiology each year — the three categories of natural sciences the Nobel Prizes are awarded for. This year the focus was back on chemistry, and I was lucky enough to be invited by the organisers to cover the event on their blog.

Throughout the week I met handpicked junior researchers, talented fellow science communicators and journalists, and — above all — sat down with Nobel Laureates for one-on-one interviews.

One of them was Martin Chalfie, who won the 2008 prize in Chemistry with Osamu Shimomura and Roger Y. Tsien for their development of the now widely used Green Fluorescent Protein (GFP) tag. Inserting the gene sequence for GFP into a host organism produces the protein within a cell, which allows for the visualization of intricate biological processes.

Chalfie talking to students at Lindau 2017

Chalfie talking to students at Lindau 2017{credit}Christian Flemming/Lindau Nobel Laureate Meetings Young Scientists in conversation with Martin Chalfie{/credit}

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TechBlog: Jupyter powers bioinformatics, again

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GenePattern Notebook screenshot

Bioinformatics isn’t easy for newbies. It’s typically done on the Linux command line, where users direct the computer using text-based instructions rather than clicking a mouse.

But there are alternatives. One popular choice is Galaxy; another is GenePattern. Both allow researchers to execute complex bioinformatics tools via open-source, point-and-click, web-based interfaces, freeing them from the burdens of the command line, programming, and software installation. As such, they make bioinformatics workflows relatively user-friendly. And that trend is continuing.

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