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Leemor Joshua-Tor

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A scene from 'Oppenheimer'

By Daniel Dunaief

Researchers at Brookhaven National Laboratory, Cold Spring Harbor Laboratory and Stony Brook University joined the chorus of moviegoers who enjoyed and appreciated the Universal film Oppenheimer.

“I thought the movie was excellent,” said Leemor Joshua-Tor, Professor and HHMI Investigator at Cold Spring Harbor Laboratory. “It made me think, which is always a good sign.”

Yusuf Hannun, Vice Dean for Cancer Medicine at Stony Brook University, thought the movie was “terrific” and had anticipated the film would be a “simpler” movie.

Jeff Keister, leader of the Detector and Research Equipment Pool at NSLS-II at Brookhaven National Laboratory, described the movie as “interesting” and “well acted.”

Joshua-Tor indicated she didn’t know anything about Robert Oppenheimer, the title character and leader of the Manhattan Project that built the atomic bomb. She “learned lots of new things” about him, she wrote. “I knew he was targeted by McCarthy-ism, but didn’t realize how that came about and the details.”

Keister also didn’t know much about Oppenheimer, who was played by actor Cillian Murphy in the film. “Oppenheimer seemed to quietly struggle with finding his role in the story of the development of the atomic bomb,” Keister said. “At times, he wore the uniform, then later seemed to express regret.”

Like other researchers, particularly those involved in large projects that bring together people with different skills and from various cultural backgrounds, Oppenheimer led a diverse team of scientists amid the heightened tension of World War II.

Oppenheimer was “shown to have been granted an extremely powerful position and was able to form a relatively diverse team, although he was not able to win over all the brightest minds,” Keister wrote.

Joshua-Tor suggested Oppenheimer “charmed” the other scientists, who were so driven by the science and the goal that they “accepted him. The leader of the team should be a great scientist, but doesn’t necessarily have to be the biggest genius. There is a genius in being able to herd the cats in the right way.”

Joel Hurowitz, Associate Professor in the Department of Geosciences at Stony Brook University, “loved” the movie. Hurowitz has worked with large projects with NASA teams as a part of his research effort.

Hurowitz suggested that the work that goes into coordinating these large projects is “huge” and it requires “a well laid out organizational structure, effective leadership, and a team that is happy working hard towards a common goal.”

‘Stunning’ first bomb test

Keister described the first nuclear bomb test as “stunning” in the movie. “I have to wonder how the environmental and health impacts of such a test came to be judged as inconsequential.”

Some local scientists would have appreciated and enjoyed the opportunity to see more of the science that led to the creation of the bomb.

Science is the “only place the movie fell short,” Hannun said. “They could have spent a bit more time to indicate the basic science behind the project and maybe a bit more about the scientific accomplishments of the various participants.”

Given the focus of the movie on Oppenheimer and his leadership and ultimate ambivalence about the creation of the atomic bomb, Keister suggested that scientists “could be better encouraged to understand the impacts of applied uses of new discoveries. Scientists can learn to broaden their view to include means of mitigating potential negative impacts.”

Research sponsors, including taxpayers and their representatives, have an “ethical responsibility to incorporate scientists’ views of the full impacts into their decisions regarding applications and deployment of new technology,” Keister said.

Joshua-Tor thinks there “always has to be an ongoing conversation between scientists and the citizenry” which has to be an “informed, somewhat dispassionate conversation.”

Recommended movies about scientists

Local researchers also shared some of their film recommendations about scientists.

Hurowitz wrote that his favorite these days is Arrival, a science fiction film starring Amy Adams. If Hurowitz is looking for more lighthearted fare, he writes that “you can’t go wrong with Ghostbusters,” although he’s not sure the main characters Egon, Ray and Peter could be called scientists.

Keister also enjoys science fiction, as it “often challenges us with ethical dilemmas which need to be addressed.” While he isn’t sure he has a favorite, he recommended the sci-fi thriller Ex Machina starring Alicia Vikander as a humanoid robot with artificial intelligence,.

Joshua-Tor recalls liking the film A Beautiful Mind starring Russell Crowe and Jennifer Connelly as John and Alicia Nash. She also loved the film Hidden Figures, starring Taraji P Henson, Octavia Spencer and Janelle Monáe.

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JoAnne Hewett. Twitter photo

By Daniel Dunaief

Daniel Dunaief

Finally!

Brookhaven National Laboratory has had nine lab directors since it was founded in 1946. Earlier this week, the Department of Energy facility, which has produced seven Nobel Prizes, has state-of-the-art facilities, and employs over 2,800 scientists and technicians from around the world announced that it hired JoAnne Hewett as its first female lab director.

Successful, determined, dedicated and award-winning local female scientists lauded the hire of Hewett, who comes to BNL from SLAC National Accelerator Laboratory where she was associate lab director for fundamental physics and chief research officer. SLAC is operated by Stanford University in Menlo Park, California. In email responses, local female scientists suggested that Hewett’s hiring can and would inspire women in science, technology, engineering and math (STEM) fields.

“I am so delighted by the news that Dr. JoAnne Hewett has been named to be the next director of Brookhaven National Laboratory,” wrote Esther Takeuchi, William and Jane Knapp chair in Energy and the Environment and SUNY distinguished professor at Stony Brook University and chair of the Interdisciplinary Science Department at BNL. As the first female director for the lab, Hewett “is an inspiration not only for the women who are in the field, but for future female scientists who will witness first hand that success at the highest level.”

Stella Tsirka, SUNY distinguished professor in the Department of Pharmacological Sciences at the Renaissance School of Medicine at Stony Brook University, suggested this hire was a part of an increasing number of women in prominent positions in science at local institutions.

Stony Brook and BNL are “becoming a hub of strong female role models for younger females, in STEM, in medicine, in leadership!” Tsirka wrote. “Between [SB President] Maurie McInnis, Hewett, Ivet Bahar (the director of the Laufer Center), Anissa Abi-Dargham [principal investigator for the Long Island Network for Clinical and Translational Science] and many other successful female faculty in leadership positions, hopefully, the message comes out loud and clear to our young women who are in science already, or aspire to be in science.”

For her part, Abi-Dargham, who is chair in the Department of Psychiatry and Behavioral Health, described Hewett’s hire as “amazing” and suggested it was “really exciting to see an accomplished female scientist selected to head our collaborating institution at BNL!”

Cold Spring Harbor Laboratory Professor and Cancer Center Program co-leader Mikala Egeblad added that the significance of Hewett’s hire goes “well beyond inspiring young girls. It is important to have women leaders for all sciences, also for someone at my career stage. I hope that one day, we will get to a point when we don’t think about whether a leader is a woman or a man.”

Women remain underrepresented at top leadership positions, so Egeblad finds it “very inspiring to see a woman recognized for her leadership skills and selected” to head BNL.

Leemor Joshua-Tor, professor and HHMI investigator at CSHL, called the hire “really great news” and indicated this was “especially true for the physical sciences, where there are even fewer women in senior positions than in biology.” Joshua-Tor added that the more women in senior, visible positions, “the more young women and girls see this as a normal career to have.”

Alea Mills, professor and Cancer Center member at CSHL, wrote that it is “fantastic that BNL has found the very best scientist to lead them into their next new mission of success. And it’s an extra bonus that this top scientist happens to be a woman!”

Mills added that efforts to enhance diversity are fashionable currently, but all too often fall short. Hiring Hewett makes “real traction that will undoubtedly inspire future generations of young women in STEM.”

Patricia Wright, distinguished service professor at Stony Brook in the Department of Anthropology, wrote that it was “inspiring” to see a female director of BNL and that “young female scientists can aspire to being in that role some day.”

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Photo by ©Constance Brukin, 2018/ CSHL

By Daniel Dunaief

This article is part one in a two-part series.

Women have made great strides in science, but they haven’t yet found equal opportunity or a harassment-free work environment.

After the National Academy of Sciences published a study in 2018 that highlighted sexual harassment and unconscious bias, a team of scientists came together at Cold Spring Harbor Laboratory last December to discuss ways to improve the work environment.

Led by Carol Greider, an alumni of CSHL and the director of molecular biology and genetics at Johns Hopkins and a Nobel Laureate, and Jason Sheltzer, a fellow at CSHL, the group recently released its recommendations in the journal Science.

While the atmosphere and opportunities have changed, “It’s not a clear-cut enlightenment and everybody is on board,” said Leemor Joshua-Tor, a professor at CSHL and a member of the group that discussed the challenges women face in science at the Banbury Center last year.

The Science article highlights earlier work that estimates that 58 percent of women experienced unwanted sexual attention or advances at some point in their careers. The authors write that this harassment is often ignored or excused, which can cause talented and capable women to leave the field of scientific research.

A member of the group that came together to discuss how to continue to build on the progress women have made in the STEM fields, Nancy Hopkins, an Amgen Inc. professor of biology emerita at the Massachusetts Institute of Technology, helped bring attention to the disparity between opportunities for men and women in science in the 1990s.

“My generation pushed [opportunities for women] forward and got through the door,” Hopkins said. “We found out that when you get through the door, the playing field wasn’t level.”

Hopkins said the progress is “still not enough” and that leaders like Greider and Sheltzer, whom she praised for tackling this nettlesome issue, “are now identifying problems that we accepted.”

For starters, the group agrees with the National Academy of Sciences, Engineering and Medicine, which believes treating sexual harassment in the same way as scientific misconduct would help. 

The scientists, which include CSHL’s CEO Bruce Stillman, recommend creating institutional and government offices to address substantiated claims of sexual misconduct and to educate institutions on harassment policy, using the same structures for research misconduct as models. 

An office that verified these claims could offer reporting chains, consistent standards of evidence and defined protocols.

Additionally, the scientists believe researchers should have to answer questions from funding agencies about whether they have been found responsible for gender-based harassment at any point in the prior 10 years, as well as whether they have been a part of a settlement regarding a claim of professional misconduct, research misconduct or gender-based harassment in the same time period. 

This policy, they urge, could prevent institutions from tolerating serial offenders who have generated a high level of research funding over the years.

“People that go through a complete investigation and have been found to have committed egregious harassment [can] get a job somewhere else, where nobody knows and everything happens again,” Joshua-Tor said. This policy of needing to answer questions about harassment in the previous decade would prevent that scenario.

The dependence scientists have on lab leaders creates professional risk for students who report harassment. The fortunes of the trainees are “very much dependent on the principal investigator in an extreme way,” explained Joshua-Tor. Senior faculty members affect the future of their staff through letters of recommendation.

“There’s a lot at stake,” said Joshua-Tor, especially if these lab leaders lose their jobs. Indeed, their students may suffer from a loss of funding. The authors recommend finding another researcher with a proven track record of mentorship to manage the lab.

Even though many senior scientists have considerable responsibilities, Joshua-Tor said principal investigators have assumed mentorship duties for others in unusual circumstances. 

“There were cases where people died,” so other scientists in neighboring labs took over their staff, she explained.

If, however, the institution can’t find another researcher who is available to take on these additional responsibilities, the authors recommend that the funding agency make bridge funding available to these researchers.

In addition to claims of harassment, the scientists discussed the difficulty women face from conscious and unconscious bias.

Joshua-Tor recalls an experience in a physics lab when she was an undergraduate. She was a lab partner with a man who was a “fantastic theoretician,” but couldn’t put together an experiment, so she connected the circuits. “The professor would come and talk” to her lab partner about the experimental set up while ignoring her and treating her as if she were “air.”

The scientists cited how male postdoctoral researchers tend to receive higher salaries than their female counterparts, while male faculty also receive larger salaries and start-up offers. Men may also get a larger share of internal funding, as was alleged with a $42 million donation to the Salk Institute.

To provide fair salaries, institutions could create anonymized salary data to an internal committee or to an external advisory committee for regular review, the scientists suggested.

Additionally, the researchers urged work-life balance through family-friendly policies, which include encouraging funding agencies to consider classifying child care as an acceptable expense on federal grants. Conferences, they suggest, could also attempt to provide on-site childcare and spaces for lactation.

While these extra efforts would likely cost more money, some groups have already addressed these needs.

“The American Society for Cell Biology has a fantastic child care program, where, if you are traveling, they have funds to alleviate extra child care services at home,” Joshua-Tor said. “If this is something we need and it’s in everybody’s psyche that it has to be taken care of for a meeting, it will be commonplace.”

Finally, the group addressed the challenge of advancing the careers of women in science. Female authors are often underrepresented in high-impact journals. Women also tend to dedicate more time to teaching and mentorship. The group encouraged holistic evaluations, which focus on an analysis of a candidate’s scientific and institutional impact.

Hopkins suggested that the solutions to these challenges at different institutions will vary. “You have to pick solutions that work in your culture” and that involve the administration. Ultimately, leveling the playing field doesn’t happen just once. “You’ve got to solve it and stay on it,” she urged.

Next week’s article explores some of the efforts of Stony Brook University, Brookhaven National Lab and Cold Spring Harbor Laboratory to provide an inclusive environment that ensures women have an equal opportunity to succeed in the STEM fields.

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Leemor Joshua-Tor. Photo from CSHL

By Daniel Dunaief

Like many of the other talented and driven professionals at Cold Spring Harbor Laboratory, Leemor Joshua-Tor often works far from the kind of spotlight that follows well-known actors or authors.

That changed in April and early May. First, the American Academy of Arts and Sciences elected her a member on April 11. Other members joining the academy this year include Carol Burnett, New York Times columnist Nicholas Kristof, actor Ian McKellen, who played Gandalf in the Hobbit films and Magneto in the X-Men movies, and Israeli writer David Grossman.

Then, on May 2, the National Science Foundation elected the Cold Spring Harbor Laboratory professor and Howard Hughes medical investigator to join its ranks. “I got a huge amount of congratulatory emails from many friends, some of which I haven’t been in touch with for a while,” Joshua-Tor said. “It’s humbling.”

Joshua-Tor’s research covers a range of areas in structural and molecular biology. She works with RNA interference, where she focuses on how small molecules regulate gene expression or translation. She has also worked with Cold Spring Harbor Laboratory President Bruce Stillman on the early stages of DNA replication.

Early this year, Joshua-Tor and Stillman published a paper in eLife Sciences in which they offered more details about the human origin recognition complex. Stillman suggested that Joshua-Tor was the “main driver” for the research, studying the structure of a protein he had isolated years ago. “I am not a structural biologist, but she is an outstanding one and together, we came up with a very satisfying result.”

The origin recognition complex begins the process of replication, recruiting a helicase, which unwinds DNA. It also brings in regulatory factors that ensure smooth timing and then other factors such as polymerase and a clamp that keeps the process flowing and ensures accurate copying of the genetic code. “We don’t know how ORC’s motor activity is used,” Joshua-Tor explained. “We don’t really know what it is on the DNA that the ORC likes to bind to.”

In the recent work, the scientists explored the ORC’s structure and tinkered with it biochemically to understand it. The ORC binds and hydrolyzes the energy molecule adenosine triphosphate, or ATP, in the same way a motor would, although it probably isn’t continuous. “It might use ATP hydrolysis to perform one sort of movement, perhaps a detachment,” Joshua-Tor suggested.

In the early stages of replication, ATP is necessary for the integrity of the ORC complex, as well as the helicase that gets recruited. “We knew from biochemistry that ORC bounds multiple ATP molecules, but we did not know precisely how,” Stillman explained in an email. “The structure told us. ORC does not open the DNA by itself, but loads a protein complex onto the DNA that, when activated, can open the DNA.” Stillman is working on that process now. The next step for the CSHL collaborators is to get a structure of human ORC bound to DNA.

In their recent work, the researchers characterized how mutations involved in ATP hydrolysis affect a condition called Meier-Gorlin syndrome. Of the mutations they characterized, one affects the ability to hydrolyze ATP. Patients with this syndrome have one copy of the gene with typical function and the other that doesn’t. This likely leaves the patient with half of the molecules to do the required job.

The misregulation of replication is often associated with cancer and is something Joshua-Tor and others consider when they conduct these studies.

ATP, meanwhile, is associated with all kinds of activities, including cell adhesion and taking down misfolded proteins. Many processes in the cell connect to these types of molecular machines.

In her research with RNA interference, she is studying how a microRNA called Let7 is produced. Let7 is involved in development. Before cells differentiate when they are stem cells, they make Let7 continuously and then destroy it. She is studying the pathway for this process. Let7 is absent from stem cells and in some cancers.

Interested in science and theater when she was young, Joshua-Tor grew up in Israel, where she participated in activities at the Weizmann Institute of Science. The institute has biology, biochemistry, chemistry, math, computer science and physics, as well as an archeology unit that didn’t exist when she was there. Later, when she was a graduate student, Joshua-Tor returned to the institute and became an instructor.

An important moment in her scientific development occurred when she was in seventh grade. She was learning about elements and she put each one on a card. She brought these cards to class to study them. Her mother gave her a container that had housed her perfumes, which created a positive association for chemistry every time she studied the elements.

Joshua-Tor was also interested in theater, where she was initially in shows and then became an assistant director. The researcher lives with her daughter Avery, who is 8 and attends the Jack Abrams Magnet School. The tandem have a Schnauzer named Charles Darwin. Her daughter is proud of her mother and tells “anyone that would listen” about the awards her mother recently won, Joshua-Tor said.

Joshua-Tor, whose lab now has 11 people, said she is excited for the opportunity to meet some of her fellow honorees this fall.

Stillman expressed pride in “all our scientists and especially when they make major discoveries and they receive such peer recognition,” he wrote in an email. Joshua-Tor is “one of our best, but we have many scientists who will go on to gain substantial peer recognition. This is her turn, at least for these two awards!”

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