惯性聚合 高效追踪和阅读你感兴趣的博客、新闻、科技资讯
阅读原文 在惯性聚合中打开

推荐订阅源

WordPress大学
WordPress大学
The Register - Security
The Register - Security
Hugging Face - Blog
Hugging Face - Blog
博客园 - 聂微东
GbyAI
GbyAI
Recent Commits to openclaw:main
Recent Commits to openclaw:main
博客园_首页
D
Docker
S
Security @ Cisco Blogs
K
Kaspersky official blog
爱范儿
爱范儿
Simon Willison's Weblog
Simon Willison's Weblog
TaoSecurity Blog
TaoSecurity Blog
V
V2EX
C
CXSECURITY Database RSS Feed - CXSecurity.com
T
Troy Hunt's Blog
Cloudbric
Cloudbric
博客园 - 三生石上(FineUI控件)
Cyber Security Advisories - MS-ISAC
Cyber Security Advisories - MS-ISAC
The Hacker News
The Hacker News
美团技术团队
S
SegmentFault 最新的问题
L
Lohrmann on Cybersecurity
cs.AI updates on arXiv.org
cs.AI updates on arXiv.org
宝玉的分享
宝玉的分享
The Last Watchdog
The Last Watchdog
Y
Y Combinator Blog
M
MIT News - Artificial intelligence
钛媒体:引领未来商业与生活新知
钛媒体:引领未来商业与生活新知
奇客Solidot–传递最新科技情报
奇客Solidot–传递最新科技情报
CTFtime.org: upcoming CTF events
CTFtime.org: upcoming CTF events
Martin Fowler
Martin Fowler
Google Online Security Blog
Google Online Security Blog
K
KPMG report finds enterprise disconnect between AI and its ROI | CIO
C
Cybersecurity and Infrastructure Security Agency CISA
T
Tor Project blog
Vercel News
Vercel News
The Cloudflare Blog
G
Google Developers Blog
T
Threat Research - Cisco Blogs
AI
AI
Stack Overflow Blog
Stack Overflow Blog
I
InfoQ
Scott Helme
Scott Helme
S
Schneier on Security
大猫的无限游戏
大猫的无限游戏
The GitHub Blog
The GitHub Blog
S
Securelist
IT之家
IT之家
Microsoft Azure Blog
Microsoft Azure Blog

Hacker News

Introducing Claude Opus 4.7 Qwen Studio The Future of Everything is Lies, I Guess: Where Do We Go From Here? GitHub - SeanFDZ/macmind: Single-layer transformer in HyperTalk for the classic Macintosh Show HN: Agent-cache – Multi-tier LLM/tool/session caching for Valkey and Redis Moving a large-scale metrics pipeline from StatsD to OpenTelemetry / Prometheus GitHub - Nightmare-Eclipse/RedSun: The Red Sun vulnerability repository GitHub - SethPyle376/hiraeth: Local AWS emulator focused on fast integration testing, with SQS support, SQLite-backed state, and a debug-friendly web UI. GitHub - macOS26/Agent: Any AI, replaces Claude Code, Cursor, OpenClaw. Over 18 LLM providers (Claude, OpenAI, Gemini, Ollama, Zai, HF, Qwen) wired into a native Mac app that writes code, builds Xcode projects, bumps versions, manages git, automates Safari, use AppleScript, JS or Accessibility, extend Agent! w/ MCP Servers, run tasks from your iPhone via Messages. YouTube now lets you turn off Shorts I Made a Terminal Pager Burgers | マクドナルド公式 Commands — HackerNews CLI documentation ChatGPT for Excel PiCore - Raspberry Pi Port of Tiny Core Linux Live Nation illegally monopolized ticketing market, jury finds Google Broke Its Promise to Me. Now ICE Has My Data. Founding Engineer at Adaptional | Y Combinator CRISPR takes important step toward silencing Down syndrome’s extra chromosome GitHub - saffron-health/libretto: The AI toolkit for building reliable browser automations US v. Heppner (S.D.N.Y. 2026) no attorney-client privilege for AI chats [pdf] Unexpected €54k billing spike in 13 hours: Firebase browser key without API restrictions used for Gemini requests Retrofitting JIT Compilers into C Interpreters IPv6 – Google The Accursèd Alphabetical Clock Cybersecurity Looks Like Proof of Work Now Fragments: April 14 Cal.com Goes Closed Source: Why AI Security Is Forcing Our Decision | Cal.com - Scheduling Software for Online Bookings Laravel raised money and now injects ads directly into your agent When moving fast, talking is the first thing to break Too much Discussion of the XOR swap trick – Heather Cafe Introduction to Spherical Harmonics for Graphics Programmers The Grand Line Building a Z-Machine in the worst possible language High-Level Rust: Getting 80% of the Benefits with 20% of the Pain GitHub - duguyue100/midnight-captain: Inspired by Midnight Commander, tailored to my taste. How to build a `git diff` driver · Jamie Tanna | Software Engineer Center for Responsible, Decentralized Intelligence at Berkeley The Local Universe’s Expansion Rate Is Clearer Than Ever, but Still Doesn’t Add Up - A new synthesis of astronomical measurements confirms a persistent mismatch that could point to physics beyond current models The air throughout our homes is infused with microplastics. But there are things you can do to breathe less of them The disturbing white paper Red Hat is trying to erase from the internet – OSnews The Future of Everything is Lies, I Guess: Annoyances ‘Abhorrent’: the inside story of the Polymarket gamblers betting millions on war Productive procrastination — Max van IJsselmuiden maps, territory and LMs 447 Terabytes per Square Centimetre at Zero Retention Energy: Non-Volatile Memory at the Atomic Scale on Fluorographane Show HN: Pardonned.com – A searchable database of US Pardons 20 Years on AWS and Never Not My Job The Seasons are Wrong Artemis II crew splashes down near San Diego after historic moon mission We gave an AI a 3 year retail lease in SF and asked it to make a profit | Andon Labs How a dancer with ALS used brainwaves to perform live On filing the corners off my MacBooks Installing every* Firefox extension OpenClaw’s memory is unreliable, and you don’t know when it will break Steve Blank Nowhere Is Safe Chimpanzees in Uganda locked in vicious 'civil war', say researchers watgo - a WebAssembly Toolkit for Go linux/Documentation/process/coding-assistants.rst at master · torvalds/linux GitHub - callumlocke/json-formatter: Makes JSON easy to read. Founding Product Engineer at Bild AI | Y Combinator A compelling title that is cryptic enough to get you to take action on it GitHub - Keychron/Keychron-Keyboards-Hardware-Design: Industrial design files for Keychron keyboards and mice. 100+ models with CAD assets in STEP, DXF, DWG, and PDF. Source-available, with commercial use allowed for original compatible accessories within the license terms. [ANNOUNCE] WireGuardNT v0.11 and WireGuard for Windows v0.6 Released 1D-Chess Helium Is Hard to Replace Cooperative Vectors Introduction | Evolve Keeping a Postgres queue healthy — PlanetScale Our response to the Axios developer tool compromise Do Americans read print books, e-books or audiobooks more? The Zettelkasten Method in Obsidian: A Practical Setup Guide Artemis II Is Competency Porn and We Are Starving For It WeakC4 Flight Viz — Cockpit View A Mexican surveillance giant you’ve never heard of is now watching the U.S. border Surelock: Deadlock-Free Mutexes for Rust RISC-V 101 – what is it and what does it mean for Canonical? | Ubuntu The Problem That Built an Industry How Much Linear Memory Access Is Enough? | Solidean Investigating Split Locks on x86-64 Simplest hash functions Sybilproof reputation mechanisms (2005) [pdf] What is a property? How Complex is my Code? Static code analysis in Kotlin — tools overview Toffoli gates are all you need PGLite evangelism dcmake: a new CMake debugger UI Clojure on Fennel part one: Persistent Data Structures Fragments: April 2 Python Release Python install manager 26.1 The Life and Death of the Book Review - Liberties Introducing Database Traffic Control — PlanetScale Bitcoin miners are losing $19,000 on every BTC produced as difficulty drops 7.8% God sleeps in the minerals Building slogbox Apple Silicon and Virtual Machines: Beating the 2 VM Limit Who was “Not Even Wrong” first? Pokemon Evolution Vs Darwinian Evolution The APL Programming Language Source Code
Venom and Hot Peppers Offer a Key to Killing Resistant Bacteria
Fernanda Gon · 2026-05-08 · via Hacker News

Researchers from the National Autonomous University of Mexico (UNAM) have identified new ways to combat tuberculosis and reduce bacterial resistance, developing three new antibiotics derived from scorpion venom and habanero peppers.

A team led by Lourival Domingos Possani Postay, from the Institute of Biotechnology's Morelos campus, created two drugs that demonstrated efficacy against the bacterium Mycobacterium tuberculosis, responsible for tuberculosis, as well as against Staphylococcus aureus, a microorganism that in hospital environments can cause various clinical complications, from skin infections to potentially fatal diseases such as pneumonia, meningitis, septicemia, and endocarditis.

The antibiotics were derived from the venom of the scorpion Diplocentrus melici, native to the state of Veracruz. The team was able to isolate two colorless molecules called benzoquinones—heterocyclic compounds that do not contain amino acids—from the arachnid's toxin.

These molecules have a particular property: When they come into contact with air, they oxidize and change color. One becomes blue and the other red. This behavior allowed scientists to determine their chemical structure, synthesize them in the laboratory, and evaluate their biological properties.

The results showed that the blue benzoquinone has the capacity to act against the bacteria that cause tuberculosis, while the red one is effective against Staphylococcus aureus. Richard Zare, a renowned expert in the field of physical chemistry and a professor of chemistry at Stanford University, participated in this process, which strengthened the validation of the findings.

The project also involved the collaboration of Rogelio Hernández Pando, from the Salvador Zubirán National Institute of Medical Sciences and Nutrition, who evaluated the effect of blue benzoquinone in a mouse model with induced tuberculosis. After the trials, he concluded that the molecule works as a highly effective antibiotic against this disease.

Subsequently, the team conducted further tests and found that the same substance is also capable of eliminating other bacteria, such as Acinetobacter baumannii, a highly resistant opportunistic pathogen that is often associated with infections in the blood, urinary tract, lungs, and wounds, especially in hospitals.

The molecules obtained from the scorpion venom have already been patented in Mexico and South Africa. Currently, researchers are working on the development of nanoparticles that function as stabilizers and protection systems, so that antibiotics can be administered safely in the body.

According to Possani Postay, the next step is to carry out clinical trials, although he recognizes that these involve considerable investment. For this reason, he expressed interest in collaborating with a national pharmaceutical company to bring the compounds to large-scale production.

From a Sauce to an Antibiotic

At the same time, another group from the UNAM Biotechnology Institute identified a peptide in the habanero chili bell pepper that has the capacity to fight opportunistic bacteria that can cause serious infections, particularly in patients with weakened immune systems.

This project, led by Gerardo Corzo Burguete together with Georgina Estrada Tapia from the Yucatan Scientific Research Center, focused on the bacterium Pseudomonas aeruginosa, considered by the World Health Organization as a high-priority pathogen due to its resistance to conventional antibiotics.

The scientists identified a peptide called defensin J1-1 in the habanero bell pepper (Capsicum chinense). Based on this finding, they developed a biotechnological process to produce a drug called XisHar J1-1, which proved effective against Pseudomonas aeruginosa and has the potential to treat infections caused by fungi.

The procedure involved the genetic modification of a bacterium to induce the production of J1-1 defensin. Subsequently, the modified microorganism was cultured by submerged fermentation, an industrial technique that allows the generation of compounds on a large scale. Finally, the peptide was extracted and purified for use as an antibiotic.

Although the experimental results were positive, Estrada Tapia pointed out that the study has limitations, since it did not use a resistant strain from patients, but a laboratory strain. However, she indicated that both defensin and its synthetic variants showed efficacy and already have a patent in Mexico.

The team stressed the need for further research, since these molecules can be degraded in different organisms. Even so, they are confident that the next phase, which includes tests against resistant strains isolated from patients, will allow them to validate their therapeutic potential.

Iván Arenas Sosa, a member of the group, emphasized that although there is still a long way to go, the advances represent a promising method of combating antimicrobial resistance, considered one of the main threats to global health.

"The problem of antibiotic-resistant bacteria has increased in recent years and will continue in the future. Therefore, it is essential to promote projects aimed at the discovery of new molecules and the development of innovative treatments to address antimicrobial resistance," he concluded.

This story first appeared on WIRED en Español and has been translated from Spanish.