Breaking News
December 12, 2018 - New publications generate controversy over the value of reducing salt consumption in populations
December 12, 2018 - New data from TAILORx trial confirms lack of chemo benefit regardless of race or ethnicity
December 12, 2018 - Specific class of biomarkers can accurately indicate the severity of cancer
December 12, 2018 - Meds Taken Do Not Vary With ADL Impairment in Heart Failure
December 12, 2018 - Long-term study shows that HIV-2 is deadlier than previously thought
December 12, 2018 - People living near oil and gas wells show early signs of cardiovascular disease
December 12, 2018 - IONTAS founder and pioneer in phage display technology attends Nobel Prize Award Ceremony
December 12, 2018 - People who eat red meat have high levels of chemical associated with heart disease, study finds
December 12, 2018 - New method uses water molecules to unlock neurons’ secrets
December 12, 2018 - New computer model predicts prostate cancer progression
December 12, 2018 - More Illnesses From Tainted Romaine Lettuce Reported
December 12, 2018 - Aspirin could reduce HIV infections in women
December 12, 2018 - Insights into magnetotactic bacteria could guide development of biological nanorobots
December 12, 2018 - Sacrificial immune cells alert body to infection
December 12, 2018 - Low-salt diet may be more beneficial for females than males
December 12, 2018 - Major soil organic matter compound battles chronic wasting disease
December 12, 2018 - Findings may open up new ways to treat dwarfism and other ER-stress-related conditions
December 12, 2018 - New computational model provides clearer picture of shape-changing cells’ structure and mechanics
December 12, 2018 - 10 Facts on Patient Safety
December 12, 2018 - Poorest dying nearly 10 years younger than the rich in ‘deeply worrying’ trend for UK
December 12, 2018 - Innovative care model for children with ASD reduces use of behavioral drugs in ED
December 12, 2018 - Spending time in and around Hong Kong’s waters linked to better health and wellbeing
December 12, 2018 - Simple measures to prevent weight gain over Christmas
December 12, 2018 - Research advances offer hope for patient-tailored AML treatment
December 12, 2018 - Researchers discover a ‘blind spot’ in atomic force microscopy
December 12, 2018 - Sprayable gel could help prevent recurrences of cancer after surgery
December 12, 2018 - SLU researchers explore how fetal exposure to inflammation can alter immunity in newborns
December 12, 2018 - How do patients want to discuss symptoms with clinicians?
December 12, 2018 - Zinc chelation may be able to deliver drug to insulin-producing cells
December 12, 2018 - Brigham researchers develop automated, low-cost tool to predict a woman’s ovulation
December 12, 2018 - Some people with Type 2 diabetes may be testing their blood sugar more often than needed
December 12, 2018 - Slow-growing type of glioma may be vulnerable to immunotherapy, suggests study
December 12, 2018 - Study provides new information regarding microRNA function in cellular homeostasis of zebrafish
December 12, 2018 - Study provides new understanding of mysterious ‘hereditary swelling’
December 12, 2018 - Researchers shed new light on how to combat Shiga and ricin toxins
December 12, 2018 - Pregnant Women Commonly Refuse Vaccines
December 12, 2018 - Drug treatment could offer new hope for some patients with brain bleeding
December 12, 2018 - Health care financial burden of animal-related injuries is growing, study says
December 12, 2018 - Macrophage cells could help repair the heart following a heart attack, study finds
December 12, 2018 - Researchers develop new system for efficiently producing human norovirus
December 12, 2018 - New artificial intelligence-based system to differentiate between different types of cancer cells
December 11, 2018 - Brazilian professors propose guidelines for therapeutic use of melatonin
December 11, 2018 - Healthy Lifestyle Lowers Odds of Breast Cancer’s Return
December 11, 2018 - New research identifies two genes linked to serious congenital heart condition
December 11, 2018 - NIH Director talks science, STEM careers with preteens
December 11, 2018 - Disabling a Cellular Antivirus System Could Improve Gene Therapy
December 11, 2018 - New tool swiftly provides accurate measure of patients’ cognitive difficulties
December 11, 2018 - NICE releases new guidelines for diagnosis and management of COPD
December 11, 2018 - Without Obamacare penalty, think it’ll be nice to drop your plan? Better think twice
December 11, 2018 - Researchers capture high-resolution X-ray and NMR image of key immune regulator
December 11, 2018 - Natural flavonoid is effective at treating leishmanisis infections, study shows
December 11, 2018 - Avoidant grievers unconsciously monitor and block mind-wandering contents, study shows
December 11, 2018 - Study identifies how hantaviruses infect lung cells
December 11, 2018 - Improving PTSD care through genetics
December 11, 2018 - Dermatology providers show interest in recommending cannabinoids to patients
December 11, 2018 - Researchers to study effects of electroconvulsive therapy on Alzheimer’s patients with aggression
December 11, 2018 - Four dried fruits have lower glycemic index than starchy foods, study finds
December 11, 2018 - Optimization of drug dose sizes can reduce pharmaceutical wastage
December 11, 2018 - Ultrarestrictive opioid prescribing strategy linked with reduction in number of pills dispensed
December 11, 2018 - PET scans to optimize tuberculosis meningitis treatments and personalize care, study finds
December 11, 2018 - Researchers aim to identify and target high blood pressure indicators
December 11, 2018 - Researchers identify immune cell subset that may drive chronic inflammation
December 11, 2018 - Ezogabine treatment reduces motor neuron excitability in ALS patients, study shows
December 11, 2018 - One implant, two prices. It depends on who’s paying.
December 11, 2018 - Standardizing feeding practices improves growth trends for micro-preemies
December 11, 2018 - COPD Tied to Obesity in Male, Female Never-Smokers
December 11, 2018 - Flossing: Information for Caregivers
December 11, 2018 - Does breastfeeding hormone protect against type 2 diabetes?
December 11, 2018 - Educating future doctors to prescribe physical activity for their patients
December 11, 2018 - Krystal 2000 microplate design improves fluorescence and luminescence measurement
December 11, 2018 - FDA clears mobile medical app to help increase retention in recovery program for opioid use disorder
December 11, 2018 - Overcoming Challenges in High-Speed Centrifugation Experiments
December 11, 2018 - Study shows link between neighborhoods’ socioeconomic status and dietary choices
December 11, 2018 - Lower BMI before obesity surgery predicts greater post-operative weight loss, study finds
December 11, 2018 - Obesity May Be Driving Rise in Uterine Cancers
December 11, 2018 - Antioxidants may prevent cognitive impairment in diabetes
December 11, 2018 - Study discovers link between meditation and how individuals respond to feedback
December 11, 2018 - Researchers identify potential diagnostic tool for Alzheimer’s disease
December 11, 2018 - Oral cancer prognostic signature identified
December 11, 2018 - How Can I Find Out What Caused My Miscarriage?
Researchers produce 3D chemical maps of small biological samples

Researchers produce 3D chemical maps of small biological samples

image_pdfDownload PDFimage_print

Scientists at the National Synchrotron Light Source II (NSLS-II)–a U.S. Department of Energy (DOE) Office of Science User Facility at DOE’s Brookhaven National Laboratory–have used ultrabright x-rays to image single bacteria with higher spatial resolution than ever before. Their work, published in Scientific Reports, demonstrates an x-ray imaging technique, called x-ray fluorescence microscopy (XRF), as an effective approach to produce 3-D images of small biological samples.

“For the very first time, we used nanoscale XRF to image bacteria down to the resolution of a cell membrane,” said Lisa Miller, a scientist at NSLS-II and a co-author of the paper. “Imaging cells at the level of the membrane is critical for understanding the cell’s role in various diseases and developing advanced medical treatments.”

The record-breaking resolution of the x-ray images was made possible by the advanced capabilities of the Hard X-ray Nanoprobe (HXN) beamline, an experimental station at NSLS-II with novel nanofocusing optics and exceptional stability.

“HXN is the first XRF beamline to generate a 3-D image with this kind of resolution,” Miller said.

While other imaging techniques, such as electron microscopy, can image the structure of a cell membrane with very high resolution, these techniques are unable to provide chemical information on the cell. At HXN, the researchers could produce 3-D chemical maps of their samples, identifying where trace elements are found throughout the cell.

“At HXN, we take an image of a sample at one angle, rotate the sample to the next angle, take another image, and so on,” said Tiffany Victor, lead author of the study and a scientist at NSLS-II. “Each image shows the chemical profile of the sample at that orientation. Then, we can merge those profiles together to create a 3-D image.”

Miller added, “Obtaining an XRF 3-D image is like comparing a regular x-ray you can get at the doctor’s office to a CT scan.”

The images produced by HXN revealed that two trace elements, calcium and zinc, had unique spatial distributions in the bacterial cell.

“We believe the zinc is associated with the ribosomes in the bacteria,” Victor said. “Bacteria don’t have a lot of cellular organelles, unlike a eukaryotic (complex) cell that has mitochondria, a nucleus, and many other organelles. So, it’s not the most exciting sample to image, but it’s a nice model system that demonstrates the imaging technique superbly.”

Yong Chu, who is the lead beamline scientist at HXN, says the imaging technique is also applicable to many other areas of research.

“This 3-D chemical imaging or fluorescence nanotomography technique is gaining popularity in other scientific fields,” Chu said. “For example, we can visualize how the internal structure of a battery is transforming while it is being charged and discharged.”

In addition to breaking the technical barriers on x-ray imaging resolution with this technique, the researchers developed a new method for imaging the bacteria at room temperature during the x-ray measurements.

“Ideally, XRF imaging should be performed on frozen biological samples that are cryo-preserved to prevent radiation damage and to obtain a more physiologically relevant understanding of cellular processes,” Victor said. “Because of the space constraints in HXN’s sample chamber, we weren’t able to study the sample using a cryostage. Instead, we embedded the cells in small sodium chloride crystals and imaged the cells at room temperature. The sodium chloride crystals maintained the rod-like shape of the cells, and they made the cells easier to locate, reducing the run time of our experiments.”

The researchers say that demonstrating the efficacy of the x-ray imaging technique, as well as the sample preparation method, was the first step in a larger project to image trace elements in other biological cells at the nanoscale. The team is particularly interested in copper’s role in neuron death in Alzheimer’s disease.

“Trace elements like iron, copper, and zinc are nutritionally essential, but they can also play a role in disease,” Miller said. “We’re seeking to understand the subcellular location and function of metal-containing proteins in the disease process to help develop effective therapies.”

Source:

https://www.bnl.gov/newsroom/news.php?a=213105

Tagged with:

About author

Related Articles