"Microbial Rainbow" (detail), Tal Danino, 2018

This NPR interview with with Angela Saini about how race science never really left the global scientific consciousness is super interesting! I’m gonna read her book!

motivating myself to write my paper about fungi by talking about fungi:

in Tokyo in 2010, scientists wanted to test the limits of 'brainless' organisms, especially their decision making skills, so they made a little obstacle course in a Petri dish and sent a slime mold to navigate it. they set it up with light and oats, the oats acting as goals and the lights acting as deterrents. the oats were placed in such a way that represented the major train stations in Tokyo. in LESS THAN TWO DAYS, the slime mold had perfectly navigated the obstacle course and hit all the oat stations. when the scientists compared the Petri dish patterns to the city, they noticed that the slime mold had perfectly replicated the train lines of Tokyo. in the most efficient way possible. a task which took humans FIVE YEARS to plan, design and build. slime molds do not have nervous systems, brains, or (as it was previously believed) the ability to form complex thoughts. however, these molds were able to design this system quicker and more efficiently than humans ver have. they were even able to create a path for the shortest route through an IKEA.

the whole concept that organisms other than humans are unable to make decisions or solve complex problems is incredibly outdated and should have been disproven years ago when the Great Chain of Being was first challenged, but these ideas have stuck around for hundreds of years and are only now beginning to be opposed. for years, people thought that organisms like octopi could be tested on in labs because they were unable to feel pain or form thoughts, but only now is it being discovered that octopi have huge brains and are capable of numerous skills, they can recognize people and miss them, and they have the same or even better understanding of the world around them than humans. every other organisms' intelligence has been measured against humans for so long, that the idea that other creatures may have a different way of processing information is something completely unheard of.

in conclusion: brainless fungi and molds are redefining what humans believe to be 'intelligence' by exhibiting amazing navigation of obstacle courses, problem-solving and decision-making skills.

improbable.com

Past Ig Winners

Ig® Nobel Prize Winners For achievements that first make people LAUGH then make them THINK Winners by year: 2023 : 2022 : 2021 2020 : 2019 :

The Ig Nobel Prize, for scientific research that makes people laugh and then makes them think. This year's winners!

CHEMISTRY and GEOLOGY PRIZE [POLAND, UK] Jan Zalasiewicz, for explaining why many scientists like to lick rocks. REFERENCE: “Eating Fossils,” Jan Zalasiewicz, The Paleontological Association Newsletter, no. 96, November 2017. Eating fossils | The Palaeontological Association (palass.org) WHO TOOK PART IN THE CEREMONY: Jan Zalasiewicz

LITERATURE PRIZE [FRANCE, UK, MALAYSIA, FINLAND] Chris Moulin, Nicole Bell, Merita Turunen, Arina Baharin, and Akira O’Connor for studying the sensations people feel when they repeat a single word many, many, many, many, many, many, many times. REFERENCE: “The The The The Induction of Jamais Vu in the Laboratory: Word Alienation and Semantic Satiation,” Chris J. A. Moulin, Nicole Bell, Merita Turunen, Arina Baharin, and Akira R. O’Connor, Memory, vol. 29, no. 7, 2021, pp. 933-942. doi.org/10.1080/09658211.2020.1727519 WHO TOOK PART IN THE CEREMONY: Chris Moulin, Akira O’Connor

MECHANICAL ENGINEERING PRIZE [INDIA, CHINA, MALAYSIA, USA] Te Faye Yap, Zhen Liu, Anoop Rajappan, Trevor Shimokusu, and Daniel Preston, for re-animating dead spiders to use as mechanical gripping tools. REFERENCE: “Necrobotics: Biotic Materials as Ready-to-Use Actuators,” Te Faye Yap, Zhen Liu, Anoop Rajappan, Trevor J. Shimokusu, and Daniel J. Preston, Advanced Science, vol. 9, no. 29, 2022, article 2201174. doi.org/10.1002/advs.202201174 WHO TOOK PART IN THE CEREMONY: Te Faye Yap and Daniel Preston

PUBLIC HEALTH PRIZE [SOUTH KOREA, USA] Seung-min Park, for inventing the Stanford Toilet, a device that uses a variety of technologies — including a urinalysis dipstick test strip, a computer vision system for defecation analysis, an anal-print sensor paired with an identification camera, and a telecommunications link — to monitor and quickly analyze the substances that humans excrete. REFERENCE: “A Mountable Toilet System for Personalized Health Monitoring via the Analysis of Excreta,” Seung-min Park, Daeyoun D. Won, Brian J. Lee, Diego Escobedo, Andre Esteva, Amin Aalipour, T. Jessie Ge, et al., Nature Biomedical Engineering, vol. 4, no. 6, 2020, pp. 624-635. doi.org/10.1038/s41551-020-0534-9 REFERENCE: “Digital Biomarkers in Human Excreta,” Seung-min Park, T. Jessie Ge, Daeyoun D. Won, Jong Kyun Lee, and Joseph C. Liao, Nature Reviews Gastroenterology and Hepatology, vol. 18, no. 8, 2021, pp. 521-522. doi.org/10.1038/s41575-021-00462-0 REFERENCE: “Smart Toilets for Monitoring COVID-19 Surges: Passive Diagnostics and Public Health,” T. Jessie Ge, Carmel T. Chan, Brian J. Lee, Joseph C. Liao, and Seung-min Park, NPJ Digital Medicine, vol. 5, no. 1, 2022, article 39. doi.org/10.1038/s41746-022-00582-0 REFERENCE: “Passive Monitoring by Smart Toilets for Precision Health,” T. Jessie Ge, Vasiliki Nataly Rahimzadeh, Kevin Mintz, Walter G. Park, Nicole Martinez-Martin, Joseph C. Liao, and Seung-min Park, Science Translational Medicine, vol. 15, no. 681, 2023, article eabk3489. doi.org/10.1126/scitranslmed.abk3489 WHO TOOK PART IN THE CEREMONY: Seung-min Park

COMMUNICATION PRIZE [ARGENTINA, SPAIN, COLOMBIA, CHILE, CHINA, USA] María José Torres-Prioris, Diana López-Barroso, Estela Càmara, Sol Fittipaldi, Lucas Sedeño, Agustín Ibáñez, Marcelo Berthier, and Adolfo García, for studying the mental activities of people who are expert at speaking backward. REFERENCE: “Neurocognitive Signatures of Phonemic Sequencing in Expert Backward Speakers,” María José Torres-Prioris, Diana López-Barroso, Estela Càmara, Sol Fittipaldi, Lucas Sedeño, Agustín Ibáñez, Marcelo L. Berthier, and Adolfo M. García, Scientific Reports, vol. 10, no. 10621, 2020. doi.org/10.1038/s41598-020-67551-z WHO TOOK PART IN THE CEREMONY: María José Torres-Prioris, Adolfo García

MEDICINE PRIZE [USA, CANADA, MACEDONIA, IRAN, VIETNAM] Christine Pham, Bobak Hedayati, Kiana Hashemi, Ella Csuka, Tiana Mamaghani, Margit Juhasz, Jamie Wikenheiser, and Natasha Mesinkovska, for using cadavers to explore whether there is an equal number of hairs in each of a person’s two nostrils. REFERENCE: “The Quantification and Measurement of Nasal Hairs in a Cadaveric Population,” Christine Pham, Bobak Hedayati, Kiana Hashemi, Ella Csuka, Margit Juhasz, and Natasha Atanaskova Mesinkovska, Journal of The American Academy of Dermatology, vol. 83, no. 6, 2020, pp. AB202-AB202. doi.org/10.1016/j.jaad.2020.06.902 WHO TOOK PART IN THE CEREMONY: Christine Pham, Natasha Mesinkovska, Margit Juhasz, Kiana Hashemi, Tiana Mamaghani

NUTRITION PRIZE [JAPAN] Homei Miyashita and Hiromi Nakamura, for experiments to determine how electrified chopsticks and drinking straws can change the taste of food. REFERENCE: “Augmented Gustation Using Electricity,” Hiromi Nakamura and Homei Miyashita, Proceedings of the 2nd Augmented Human International Conference, March 2011, article 34. doi.org/10.1145/1959826.1959860 WHO TOOK PART IN THE CEREMONY: Homei Miyashita, Hiromi Nakamura

EDUCATION PRIZE [CHINA, CANADA, UK, THE NETHERLANDS, IRELAND, USA, JAPAN] Katy Tam, Cyanea Poon, Victoria Hui, Wijnand van Tilburg, Christy Wong, Vivian Kwong, Gigi Yuen, and Christian Chan, for methodically studying the boredom of teachers and students. REFERENCE: “Boredom Begets Boredom: An Experience Sampling Study on the Impact of Teacher Boredom on Student Boredom and Motivation,” Katy Y.Y. Tam, Cyanea Y. S. Poon, Victoria K.Y. Hui, Christy Y. F. Wong, Vivian W.Y. Kwong, Gigi W.C. Yuen, Christian S. Chan, British Journal of Educational Psychology, vol. 90, no. S1, June 2020, pp. 124-137. doi.org/10.1111/bjep.12549 REFERENCE: “Whatever Will Bore, Will Bore: The Mere Anticipation of Boredom Exacerbates its Occurrence in Lectures,” Katy Y.Y. Tam, Wijnand A.P. Van Tilburg, Christian S. Chan, British Journal of Educational Psychology, epub 2022. doi.org/10.1111/bjep.12549 WHO TOOK PART IN THE CEREMONY: Christian Chan, Katy Y.Y. Tam, Wijnand A.P. Van Tilburg

PSYCHOLOGY PRIZE [USA] Stanley Milgram, Leonard Bickman, and Lawrence Berkowitz for experiments on a city street to see how many passersby stop to look upward when they see strangers looking upward REFERENCE: “Note on the Drawing Power of Crowds of Different Size,” Stanley Milgram, Leonard Bickman, and Lawrence Berkowitz, Journal of Personality and Social Psychology, vol. 13, no. 2, 1969, pp. 79-82. psycnet.apa.org/doi/10.1037/h0028070 WHO TOOK PART IN THE CEREMONY: Len Bickman

PHYSICS PRIZE [SPAIN, GALICIA, SWITZERLAND, FRANCE, UK] Bieito Fernández Castro, Marian Peña, Enrique Nogueira, Miguel Gilcoto, Esperanza Broullón, Antonio Comesaña, Damien Bouffard, Alberto C. Naveira Garabato, and Beatriz Mouriño-Carballido, for measuring the extent to which ocean-water mixing is affected by the sexual activity of anchovies. REFERENCE: “Intense Upper Ocean Mixing Due to Large Aggregations of Spawning Fish,” Bieito Fernández Castro, Marian Peña, Enrique Nogueira, Miguel Gilcoto, Esperanza Broullón, Antonio Comesaña, Damien Bouffard, Alberto C. Naveira Garabato, and Beatriz Mouriño-Carballido, Nature Geoscience, vol. 15, 2022, pp. 287–292. doi.org/10.1038/s41561-022-00916-3 WHO TOOK PART IN THE CEREMONY: Bieito Fernandez Castro, Beatriz Mouriño-Carballido, Alberto Naveira Garabato, Esperanza Broullon, Miguel Gil Coto

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Biology - blue

Credits under the cut

Keep reading

Cell Junctions

– there are three types of junctions:      – tight      – desmosome      – gap

– tight junctions seal epithelial cells to one another

– desmosomes have “spotted” seals, where keratin filaments anchor the two cells

– gap junctions have channels to allow the passage of ions and molecules

by TheMicrobiology09 on yt

i got to work with some HeLa cells today!

as cool of an experience as this was and as interesting as these things are, it’s always important to acknowledge the bad along with the good. Henrietta Lacks’ cells revolutionized so many areas of research, but she deserved so much better.

working with these cells today just really reminded me of the duality of many scientific developments. many things have come with great cost and harm and i think that’s something important to keep in mind.

if you aren’t familiar with the story of Henrietta Lacks, i highly recommend looking her up. there’s a book about her live (the immortal life of henrietta lacks) that’s very illuminating.

[Hotwheels gen. nov., a new ground spider genus (Araneae, Gnaphosidae) from southwest China]

The generic name refers to Hot Wheels, a collectible die-cast toy car made by Mattel, as the long, coiled embolus of this new genus resembles a Hot Wheels track; neuter in gender.

Liu & Zhang, 2024

When sodium hypochlorite (bleach) solution is added to luminol, a chemical reaction occurs that releases energy in the form of light. This is called chemiluminescence. The bleach solution acts as an oxidizing agent, which means it takes electrons away from the luminol molecule. This causes the luminol molecule to become excited, and it releases the energy as light.

🎥 Courtesy: Kendra Frederick

The luminol molecule is made up of two amino groups, a carbonyl group, and an azo group. The amino groups are electron-rich, while the carbonyl group is electron-poor. The azo group is a conjugated system, which means that the electrons in the double bonds can move freely from one atom to another.

When sodium hypochlorite (bleach) solution is added to luminol, the bleach molecules react with the amino groups of the luminol molecule. This reaction takes electrons away from the luminol molecule, which causes the luminol molecule to become oxidized. The oxidized luminol molecule is in an excited state, which means that it has more energy than it normally does.

The excited luminol molecule then releases the extra energy as light. This light is called chemiluminescence. The light emitted by the chemiluminescence reaction is blue because the luminol molecule has a blue fluorescence.

The chemiluminescence reaction between luminol and sodium hypochlorite is catalyzed by the presence of a metal ion, such as iron or copper. The metal ion helps to stabilize the excited state of the luminol molecule, which makes it more likely to release the extra energy as light.

The chemiluminescence reaction is very sensitive to impurities, so it is important to use pure chemicals. The reaction can also be affected by the pH of the solution. The optimal pH for the reaction is around 9.

The chemiluminescence reaction between luminol and sodium hypochlorite can be used to detect blood, as the iron in hemoglobin can catalyze the reaction. The reaction is also used in some commercial products, such as glow sticks and emergency lights.

I hope you enjoyed learning about this. ❤️🙏