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麻豆传媒: How Marine Worms Regenerate Lost Body Parts
18-Nov-2024 5:00 AM EST
How Marine Worms Regenerate Lost Body Parts
University of Vienna

Many living organisms are able to regenerate damaged or lost tissue, but why some are particularly good at this and others are not is not fully understood. Molecular biologists Alexander Stockinger, Leonie Adelmann and Florian Raible from the Max Perutz Labs at the University of Vienna have now made an important contribution to clarifying this question in a new study.

麻豆传媒: Glutamine Metabolic Switch Is Key to Red Blood Cell Development and Disease
Released: 15-Nov-2024 10:45 AM EST
Glutamine Metabolic Switch Is Key to Red Blood Cell Development and Disease
St. Jude Children's Research Hospital

Scientists at St. Jude Children鈥檚 Research Hospital identified a link between glutamine metabolism and red blood cell maturation, showing how disruption of the process can drive disease.

麻豆传媒: Scientists Discover 鈥楨ntirely Unanticipated鈥 Role of Protein netrin1 in Spinal Cord Development
13-Nov-2024 11:55 PM EST
Scientists Discover 鈥楨ntirely Unanticipated鈥 Role of Protein netrin1 in Spinal Cord Development
University of California, Los Angeles (UCLA), Health Sciences

UCLA researchers have uncovered a surprising new role for netrin1, a crucial protein in neural development, as a regulator that limits bone morphogenetic protein signaling in the developing spinal cord.

麻豆传媒: 1920_stemcellsinspace.jpg?10000
Released: 14-Nov-2024 10:45 AM EST
New Stem Cell Data From Space
Cedars-Sinai

Cedars-Sinai investigators are one step closer to manufacturing stem cells in space, which could speed up the development of new medical therapies on Earth. The first published data from the experiments conducted on a private space mission appeared in the peer-reviewed Nature portfolio journal NPJ Microgravity.

麻豆传媒: Maryland_Stem_Cell_Research_Commission__Ruchika_Nijhara_PhD_executive_director_of_Maryland_Stem_Ce.jpg
Released: 14-Nov-2024 10:40 AM EST
Applications Now Open for 2025 Maryland Stem Cell Research Fund Grant Programs
Maryland Stem Cell Research Commission

The Maryland Stem Cell Research Commission (MSCRC) announces the release of a Request for Applications (RFA) for the Maryland Stem Cell Research Fund's (MSCRF) second funding cycle of Fiscal Year 2025 (FY25).

麻豆传媒: Human Stem Cell-Derived Heart Cells Are Safe in Monkeys, Could Treat Congenital Heart Disease
Released: 13-Nov-2024 9:55 AM EST
Human Stem Cell-Derived Heart Cells Are Safe in Monkeys, Could Treat Congenital Heart Disease
University of Wisconsin鈥揗adison

Heart muscle cells grown from stem cells show promise in monkeys with a heart problem that typically results from a heart defect sometimes present at birth in humans, according to new research from the University of Wisconsin鈥揗adison and Mayo Clinic.

Released: 12-Nov-2024 11:10 AM EST
Combination Approach Shows Promise for Treating Rare, Aggressive Cancers
University of California, Los Angeles (UCLA), Health Sciences

UCLA investigators have shown that that combining pembrolizumab, an immunotherapy drug, with standard chemotherapy can improve treatment outcomes for patients with small cell bladder cancer and small cell/neuroendocrine prostate cancer.

麻豆传媒: Key Pathway Leading to Neurodegeneration in Early Stages of ALS Identified
Released: 8-Nov-2024 10:00 AM EST
Key Pathway Leading to Neurodegeneration in Early Stages of ALS Identified
University of California San Diego

Researchers at UC San Diego identify a key pathway leading to neurodegeneration in early stages of ALS, hinting at the potential for short-circuiting the progression of the fatal disease if diagnosed early.

Released: 7-Nov-2024 12:00 PM EST
Animals That Can Cheat Death
Universite de Montreal

Some animal species seem to possess extraordinary regenerative abilities. How do they do it? And could we learn from them to defy the grim reaper ourselves?

Released: 4-Nov-2024 7:00 AM EST
Espa莽o: Uma nova fronteira para explorar a terapia com c茅lulas-tronco
Mayo Clinic

As c茅lulas-tronco cultivadas em microgravidade a bordo da Esta莽茫o Espacial Internacional (EEI) possuem qualidades 煤nicas que poder茫o, um dia, ajudar a potencializar as novas bioterapias e a curar doen莽as complexas, de acordo com dois pesquisadores da Mayo Clinic. A an谩lise da pesquisa pelo pesquisador Fay Abdul Ghani e pelo Dr. e Ph.D. Abba Zubair, publicada na NPJ Microgravity, descobriu que a microgravidade pode fortalecer o potencial regenerativo das c茅lulas. O Dr. Zubair 茅 especialista em medicina laboratorial e diretor m茅dico do Centro de Bioterapias Regenerativas na Mayo Clinic, na Fl贸rida. Abdul Ghani 茅 um tecn贸logo em pesquisa da Mayo Clinic. A microgravidade 茅 a aus锚ncia de peso ou gravidade pr贸xima a zero.

Released: 4-Nov-2024 7:00 AM EST
Espacio: Una nueva frontera para explorar la terapia con c茅lulas madre
Mayo Clinic

Las c茅lulas madre cultivadas en microgravedad a bordo de la Estaci贸n Espacial Internacional (EEI) poseen cualidades 煤nicas que alg煤n d铆a podr谩n ayudar a potenciar las nuevas bioterapias y curar enfermedades complejas, seg煤n dos investigadores de Mayo Clinic. El an谩lisis de la investigaci贸n por el investigador Fay Abdul Ghani y por el Dr. y Ph.D. Abba Zubair, publicado en NPJ Microgravity ha hallado que la microgravidad puede fortalecer el potencial regenerativo de las c茅lulas. El Dr. Zubair es especialista en medicina de laboratorio y director m茅dico del Centro de Bioterapias Regenerativas en Mayo Clinic, Florida. Abdul Ghani es tecn贸logo de investigaci贸n en Mayo Clinic. La microgravedad es la ausencia o gravedad cercana a cero.

Released: 4-Nov-2024 3:00 AM EST
丕賱賮囟丕亍: 兀賮賯 噩丿賷丿 賱丕爻鬲賰卮丕賮 丕賱毓賱丕噩 亘丕賱禺賱丕賷丕 丕賱噩匕毓賷丞
Mayo Clinic

噩丕賰爻賵賳賮賷賱貙 賮賱賵乇賷丿丕 鈥 賷賯賵賱 亘丕丨孬丕賳 賲賳 賲丕賷賵 賰賱賷賳賰 廿賳 丕賱禺賱丕賷丕 丕賱噩匕毓賷丞 丕賱鬲賷 鬲賳賲賵 賮賷 馗乇賵賮 丕賳毓丿丕賲 丕賱噩丕匕亘賷丞 毓賱賶 賲鬲賳 賲丨胤丞 丕賱賮囟丕亍 丕賱丿賵賱賷丞 (ISS) 鬲鬲賲賷夭 亘禺氐丕卅氐 賮乇賷丿丞 賯丿 鬲爻丕賴賲 賮賷 鬲爻乇賷毓 鬲胤賵賷乇 毓賱丕噩丕鬲 亘賷賵賱賵噩賷丞 噩丿賷丿丞 賵毓賱丕噩 丕賱兀賲乇丕囟 丕賱賲毓賯丿丞 賮賷 丕賱賲爻鬲賯亘賱. 丕賱鬲丨賱賷賱 丕賱亘丨孬賷 丕賱匕賷 兀噩乇鬲賴 賮丕賷 毓亘丿 丕賱睾賳賷 賵丕賱丿賰鬲賵乇 毓亘丕 夭亘賷乇貙 丕賱丨丕氐賱 毓賱賶 丿乇噩丞 丕賱丿賰鬲賵乇丕賴 賮賷 丕賱胤亘貙 賵丕賱匕賷 賳購卮乇 賮賷 賲噩賱丞 NPJ Microgravity貙 賷賰卮賮 兀賳 丕賳毓丿丕賲 丕賱噩丕匕亘賷丞 賷賲賰賳 兀賳 賷毓夭夭 賲賳 丕賱賯丿乇丞 丕賱鬲噩丿賷丿賷丞 賱賱禺賱丕賷丕. 賷毓丿 丕賱丿賰鬲賵乇 夭亘賷乇 禺亘賷乇賸丕 賮賷 丕賱胤亘 丕賱賲禺亘乇賷 賵丕賱賲丿賷乇 丕賱胤亘賷 賱賲乇賰夭 丕賱毓賱丕噩 丕賱丨賷賵賷 丕賱鬲噩丿賷丿賷 賮賷 賲丕賷賵 賰賱賷賳賰 亘賮賱賵乇賷丿丕. 兀賲丕 毓亘丿 丕賱睾賳賷 賮賴賷 鬲賯賳賷賾丞 亘丨孬賷丞 賮賷 賲丕賷賵 賰賱賷賳賰. 賷毓乇賮 丕賳毓丿丕賲 丕賱噩丕匕亘賷丞 亘賰賵賳賴 丨丕賱丞 賲賳 丕賳毓丿丕賲 丕賱賵夭賳 兀賵 丕賱噩丕匕亘賷丞 丕賱賯乇賷亘丞 賲賳 丕賱氐賮乇.

麻豆传媒: The Breadth of Breast Cell Types
Released: 31-Oct-2024 1:30 PM EDT
The Breadth of Breast Cell Types
University of New Mexico Comprehensive Cancer Center

October is Breast Cancer Awareness Month, and fittingly, University of New Mexico Comprehensive Cancer Center biologist Curt Hines, PhD, has published a pair of papers that comprehensively describe the twelve major types of cells in the human breast.

Released: 30-Oct-2024 12:00 PM EDT
Enhancing the Functionality of Mesenchymal Stem Cells: An Attractive Treatment Strategy for Metabolic Dysfunction-Associated Steatotic Liver Disease?
World Journal of Stem Cells

The intrinsic heterogeneity of metabolic dysfunction-associated fatty liver disease (MASLD) and the intricate pathogenesis have impeded the advancement and clinical implementation of therapeutic interventions, underscoring the critical dema

Released: 30-Oct-2024 12:00 PM EDT
MD Anderson Research Highlights for October 30, 2024
University of Texas MD Anderson Cancer Center

The University of Texas MD Anderson Cancer Center鈥檚 Research Highlights showcases the latest breakthroughs in cancer care, research and prevention. These advances are made possible through seamless collaboration between MD Anderson鈥檚 world-leading clinicians and scientists, bringing discoveries from the lab to the clinic and back.

   
Released: 28-Oct-2024 12:00 PM EDT
Enhancing the Functionality of Mesenchymal Stem Cells: An Attractive Treatment Strategy for Metabolic Dysfunction-Associated Steatotic Liver Disease?
World Journal of Stem Cells

The intrinsic heterogeneity of metabolic dysfunction-associated fatty liver disease (MASLD) and the intricate pathogenesis have impeded the advancement and clinical implementation of therapeutic interventions, underscoring the critical dema

麻豆传媒: Lab-Grown Pork Gets Support From Sorghum Grain
Released: 28-Oct-2024 9:30 AM EDT
Lab-Grown Pork Gets Support From Sorghum Grain
American Chemical Society (ACS)

Researchers publishing in ACS鈥 Journal of Agricultural and Food Chemistry have created a prototype cultured pork using a new material: kafirin proteins isolated from red sorghum grain.

麻豆传媒: Advancing Care of a Devastating Disease Through Gene Therapy
Released: 28-Oct-2024 7:00 AM EDT
Advancing Care of a Devastating Disease Through Gene Therapy
University of California, San Francisco (UCSF)

A new international trial is investigating the efficacy and safety of gene therapy in patients with Hurler syndrome and will compare results of gene therapy against BMT which is the current standard of care. UCSF Benioff Children鈥檚 Hospitals are among three sites in the U.S. and seven in the world now enrolling patients for the clinical trial.

麻豆传媒: NUS Making Bold Strides Towards a Synthetic Biology-Driven Future
Released: 27-Oct-2024 11:20 PM EDT
NUS Making Bold Strides Towards a Synthetic Biology-Driven Future
National University of Singapore (NUS)

The National University of Singapore (NUS) will be taking a significant leap forward in synthetic biology, leveraging its deep expertise and cutting-edge innovations to usher a new paradigm for green manufacturing, driven by this rapidly evolving field. Over the next six years, the University plans to dedicate substantial resources and efforts 鈥 estimated to value around S$120 million (US$90.6 million) - to firmly establish synthetic biology as a foundational pillar of NUS鈥 innovation ecosystem, driving transformative benefits for Singapore across multiple sectors.

Released: 26-Oct-2024 12:00 PM EDT
Gamma-aminobutyric acid enhances miR-21-5p loading into adipose-derived stem cell extracellular vesicles to alleviate myocardial ischemia-reperfusion injury via TXNIP regulation
World Journal of Stem Cells

BACKGROUNDMyocardial ischemia-reperfusion injury (MIRI) poses a prevalent challenge in current reperfusion therapies, with an absence of efficacious interventions to address the underlying causes. AIMTo investigate whether the extracellula



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