Applying for a postdoctoral position at the Hebrew University of Jerusalem (HUJI) can be an exciting step in your academic career. This guide will walk you through the process of finding and applying for postdoctoral fellowships at this renowned institution. The Hebrew University of Jerusalem is a premier destination for postdoctoral research, hosting approximately 380 postdocs from 40 countries annually. Eligibility Requirements To qualify for a postdoctoral position at HUJI, you must: Locating a Principal Investigator (PI) First things first, finding the right PI is crucial. Here’s how to proceed: Applying for Postdoctoral Fellowships Many postdocs at HUJI receive funding through their PI’s research budgets, but additional funding is often necessary. Here’s how to find and apply for additional fellowships: Tips for Successful Applications Support Services HUJI offers comprehensive support for postdocs and their families, including: For detailed information on these services, visit the international postdoc support page on HUJI’s website. By following these guidelines and utilizing HUJI’s resources, you’ll be well-prepared to apply for a postdoctoral position at the Hebrew University of Jerusalem. Remember to start your application process well in advance, as some fellowships have specific deadlines and the visa process may take time. Good luck with your application!
Scholarships for International Undergraduates at Hebrew University of Jerusalem
Are you an international student dreaming of studying at one of the world’s top 100 universities with a full scholarship? If so, the Hebrew University of Jerusalem, one of Israel’s leading institutions, is waiting for you. The Hebrew University of Jerusalem offers exciting scholarship opportunities for undergraduate students from around the world. Here’s what you need to know: Available Scholarships The Hebrew University provides several scholarship options for international undergraduate students: Merit-based scholarships: Up to 100% of tuition costs for academically excellent students Need-based scholarships: Financial aid for students from low to modest income families. Rothberg International School (RIS) scholarships: Specific funding for RIS students. Eligibility Requirements While requirements vary by scholarship, general eligibility often includes: Strong academic record (undergraduate GPA of 80 or above). English language proficiency for non-native speakers. Acceptance to a full-time undergraduate degree program. Please click here to read more detailed information about available programs, requirements, and eligibility. Application Process To apply for scholarships at Hebrew University as undergraduate students: Complete the online application form for overseas applicants. Please note that processes may differ based on the scholarship type. Pay the application fee Submit required documents, such as: Complete the online application form for overseas applicants. Please note that processes may differ based on the scholarship type. Pay the application fee Submit required documents, such as: High school graduation certificate Transcripts CV Passport copy English proficiency proof Remember, official acceptance is only confirmed through a letter from the Overseas Applicants Unit. Start your application process early to maximize your chances of admission and scholarship opportunities at the prestigious Hebrew University of Jerusalem! If you have any questions regarding the undergraduate scholarship, you may contact the international office of RIS here. If you prefer to go as an international student in the United States of America or some European countries, you may click here to see some scholarship opportunities that we organize for those who are interested.
5 Scholarships in Europe and the USA That Don’t Require IELTS: A Complete Guide
Many students dream of studying abroad with a full or partial scholarships but are often discouraged by the requirement of an English language proficiency test such as IELTS. Fortunately, there are numerous scholarships available worldwide that don’t require IELTS or TOEFL scores. In this article, we’ll dive deep into these scholarships, exploring various options across countries and providing guidelines for applying. We’ll also share direct links and other essential details, making your journey to securing these scholarships easier. Introduction to Scholarships Without IELTS Many prestigious universities and governments offer scholarships that don’t require an IELTS (International English Language Testing System) or TOEFL (Test of English as a Foreign Language) certificate. These institutions are flexible in their language requirements, allowing students from non-English-speaking countries to pursue their studies without the added burden of taking an English proficiency exam. Why Universities Offer Scholarships Without IELTS There are several reasons why universities and countries waive IELTS requirements for international students: Benefits of Scholarships Without IELTS Opting for scholarships without the need for an English proficiency test can be advantageous for several reasons: Guidelines for Applying Without IELTS Alternative Qualifications Many universities will accept alternative documentation to IELTS. For example: How to Apply for Scholarships Without IELTS When applying for scholarships without IELTS, be sure to follow these steps:
Nauno A Cidamsak: Thawhbat
Hih ‘Nauno A Cidamsak: Thawhbat’ cih thului pen ‘Cidamna Ding Sungkung Manpha Pawlkhat’ cih laibu sung pan a kila ahi hi. Tua laibu sungah a kigelh singkung manphatna thute pen, scientific findings a kici mipilte in kancianna (research) abawlna tung tawnin a kimu khia thute siksanin a kigelh ahi hi. ANUNG THU Puebla, South Central Mexico, pen Thawhbat omcilna mun hi, ci-in kikipsak aa, 8000 BC kiimin Thawhbat a omlam kiphawk khin hi, kici hi. A kigen ciangin tua mun ah 5000 BC kiim pekin Thawhbat kine zihziah khin hih tuak hi. Tua mun panin USA te in amu vala in, a gam uh ah na ciing uh aa, tua hun pen 5000 pan 4500 BC kikaal khawng hi dingin ki um hi. Tua khit kum zalom 16 sungin Spain leh mun tuamtuamte ah sumbawlte in kengin na ciing kawikawi uh aa, tua panin, leitung mun tuamtuam a kizel toto ahi hi. Kawlgam ah hong tun zia ahih leh, tuma kum 70 lai-in China gam Yunnan panin Wa minam Yanhou a kici pa in, nala in, Wa gam sung leh Kawlgam Pyin Oo Lwin te ah na ciing a, amah a masa hi dingin ki um hi. Tu in ahih leh China bek pan ahilo, gam tuamtuam panin a kila, Kawlgam sung mun tuamtuamte ah Thawhbat nam (varieties) 70 val kiciingta dingin ki ciamteh hi. Tanglai-in Mesoamerica[1] te in Thawhbat na thupi ngaihsut masa uh hi. Aztecs a kici Mexico minam neute bangin Thawhbat ne lehang ki thahat hi, ci-in um ngiat uh hi. Thamlo in, Mexico khanglam leh America saklam ah a om Maya a kici tanglai mite bangin, a calendar uh ah, a kha 14 na pen Thawhbat kha cihnopna in ‘glyph’[2] a kici ciamtehna nam khat tawh a tuam vilvelin ciamteh liang uh hi. Tu in ahih leh a thupina leh amanphatna kithei kim ahih manin, gam tuamtuam ah kiciing kawikawi khinta hi. Thawhbat pen Mikang pau in ‘avocado’ ci uh aa, Nahuatl pau ‘ahuacatl’ cih kammal panin a pai hi, ci citciat hi. Tua kammal ii akhiatna taktak pen, pasalte nau neih theihna kuamteng (cil leh zang) gennopna hi citciat hi. Hih tawh kisai-in a kigenna nam nih om aa, pawlkhatte in, Thawhbat pen agah en lehang cil leh zang kizom tawh kibang ahih manin, tua min a kivawh hi ding hi, ci uh hi. Ahi zongin, pawlkhatte leuleu in, Thawhbat ne lehang nu le pa omkawmna lam lunggulhna khangin, zong thahat sak baan ah nau neih theihna dingin zong thapia-ahih manin, ‘ahuacatl’ ci-in min a kivawh hi ding hi, ci leuleu hi. Ahi zongin a lunglut huai khat ah, tanglai-in, Thawhbat ‘ahuacatl’ acih hunlai un, amanphatna leh ahoihnate thei nai hetlo ding uh hi, cinop huai hi. AMANPHATNA Thwhbat pen leitung bup gah le teh tawh kisai lamsang sumbawlna-ah, 1900 kiim pan kipanin a kikhawng pen 3 na ah omin, tu dong mah in, a 10 na sung bangah om den hi. Banghang hiam cih leh, cidamna dingin Thawhbatin a piak theih tam mahmah ahih man ahi hi. Thawhbat sungah potassium 975 mg bangh kihel thei-in, Nahtang sungah a kihel zah sangin tamzaw lai hi. Fiber zong 4.6 g bang kihel thei aa singgah khempeuh lak ah tam akihel penin kiciamteh hi. National Cancer Institute[3] in a ciaptehna-ah Thawhbat sungah glutathione[4] a kici dat 19 mg bang kihelin, tua dat pen pumpi-in natna khat peuh hong lut mengmeng zawhlohna dingin dalzawhna tha pia hi, ci hi. American Heart Association[5] in a ciaptehna leuleu ah, Thawhbat in LDL chloresterol[6] a hoih bek dingin keem cingin, ih gihna ahoih bek dingin keem cing hi, ci citciat hi. Thawhbat sungah cidamna ding amanpha tampitak om hi. Vitamins C, E, K, B2, B3, B6, te baan ah folate, magnesium, potassium, lutein,[7] beta carotene, omega-3 fatty acids, cih bangin kihel aa, guh le taang thakhauh sak, lunggimna tawm sak, lungtang thahat sak, cancer dal, cih bangin a tuamtuamin phattuamna piangsak thei hi. Hih a tunga bangin Thawhbat in hong piak theih phattuamna tampi a om tawh kizui-in, mi kimin kiciingin sumbawlna ding dongin nakpi takin kizangh ahih manin, Thawhbat ciinna huhau in kiim le paam a kisiatna mun om kiukiu hi. Thawhbat huhau in a kizangh vante leh a kipuakna mawtaw (car) te panin apiang huih niin zong mun khatkhat a dingin tam khin aa, Thawhbat in tui tam deih lua-ahih manin, ama huhau aa kizangh tui zong tambeilua leh, a paak zeizai zah in zu le vate a dingin phattuamna tampia lo hi, ci-in mipilte in mu-uh hi. Ahi zongin, Thawhbat in Zawngtah leh Limsing (Tawsaw) a kipan singkung dangte mah bangin huih siangtho khah khia in, huih niinte zangh aa, ni khatin huih siangtho 11 pan 15 lb kikaal bangh hawmkhia zo hi. A zungte in lei kicim ding daalin, lei kipsak hi. Tua-ahih manin, Thawhbat a uanglua in ki ciing gawp kei peuh leh, kiim le paam bangmah nawngkaai saklo thamlo in, kiim le paam cidamna dingin thapia zaw hi. Ahi zongin, sum bawlna dingin a mual aguam dimin a ciing a kitamna munte ah ahih leh, ama piak theih phattuamna zahin ama hangin apiang siatna zongh hawmthawh omlo cihnopna-ahi hi. ZAT PAH THEIH DING PAWLKHAT 1. Naupaaite leh nauneu neite in neek huai Thawhbat pen naupai nupite a dingin ahoih mahmah baan ah, a sungah a om naungeek a dingin zongh hoih mahmah aa, nau suah zong olsakin, nau nawi zong tamsak hi, ci-in kancianna (research) bulphuh muhnate Nutrients a kici Journal ah a sawt nailo khatin kisuaksak hi. Thawhbat sungah a om potassium leh folate pen singgah dangdangte sungah a om zah sangin tamzaw tham hi. Hite nih pen gilsungah a om nau a cidamna ding ahi aa, anu a cidamna dingin ahi zongin aphamawhte ahi hi. Tua-ahih manin, The American College of Obstetricians and Gynecologists[8]panin naupai nupite in ni khatin folate 600 mcg (microgram) bang neek huai hi, ci-in gen uh hi. Tua dungzui-in en lehang, Thawhbat pum khat sungah folate 160 mcg bang kihel thei ahih manin naupai nupite’ neek ding kisam zah ii
The Academic Brain Drain Since Myanmar’s Military Coup
The Myanmar’s military coup, however, marked the beginning of an unprecedented period of turmoil that would drastically alter my life and the lives of countless others in academia. As a member of the country’s higher education community, I have since witnessed firsthand the importance of democracy not just as a political system, but as the very foundation of intellectual freedom and academic progress. This belief is what drove me to take part in the Civil Disobedience Movement (CDM). I understood that a thriving democracy fosters critical thinking, encourages diverse perspectives, and nurtures innovation—all essential elements for quality education and research. Read the complete article at its original source, The Diplomat, by clicking here.
Potential Anticancer Properties of Stink Bean
Stink bean, particularly, Parkia speciosa, (for readers interested in the article on Parkia insignis in a local language, please click here.) has gained attention in recent years for its potential anticancer properties, health benefits, particularly in cancer prevention and treatment. While it is a popular culinary ingredient in Southeast Asia, its medicinal properties are now being explored, with early research indicating its potential anticancer effects. Overview of Stink Bean (Parkia speciosa) Stink bean, often referred to as “petai” in local languages, is a leguminous tree native to Southeast Asia. The beans are known for their strong odor, which can be off-putting to some, but they are a staple in many traditional dishes. Beyond its culinary uses, stink bean has been traditionally used in folk medicine for various ailments, including hypertension and diabetes. Recent scientific investigations have begun to explore its potential in cancer prevention and treatment. Antitumor and Antimutagenic Properties Preliminary Studies and Findings Emerging research has shown that stink bean may possess antitumor and antimutagenic properties, making it a candidate for cancer prevention and treatment. Antimutagenic Activity in the Ames Test One of the initial studies on stink bean focused on its antimutagenic activity using the Ames test, a widely recognized method for detecting chemical mutagenicity. The methanolic extract of stink bean seeds demonstrated moderate antimutagenic activity, suggesting its potential to reduce the occurrence of mutations that could lead to cancer [2]. Association with Esophageal Cancer Reduction In Southern Thailand, where the consumption of raw stink bean seeds is common, epidemiological studies have observed a lower incidence of esophageal cancer. While this correlation does not establish causation, it has prompted further research into the potential protective effects of stink bean against certain types of cancer [2]. Cytotoxicity Against Cancer Cell Lines Another significant finding is the selective cytotoxicity of stink bean seed coat extracts against specific cancer cell lines. Studies have shown that these extracts exhibit cytotoxic effects on breast, colon, and liver cancer cells, indicating that stink bean may have the potential to target and kill cancer cells selectively without harming normal cells [2]. Bioactive Compounds in Stink Bean The anticancer properties of stink bean are believed to be due to its rich content of bioactive compounds. These compounds may work synergistically to inhibit cancer cell growth and promote overall health. Thiazolidine-4-Carboxylic Acid One of the key compounds found in stink bean is thiazolidine-4-carboxylic acid, which has been reported to possess anticancer properties. This compound may inhibit the growth of cancer cells and reduce the risk of tumor formation [2]. Phenolic Acids and Flavonoids Stink bean seeds and pods are rich in phenolic acids and flavonoids, which are known for their antioxidant and anti-inflammatory properties. These compounds may help protect against the development of cancer by neutralizing harmful free radicals and reducing oxidative stress [2]. Lectins and Immune Response Enhancement Lectins, another group of compounds found in stink bean, have been shown to increase lymphocyte mitogenesis, which could potentially enhance the body’s immune response against tumors. By boosting the immune system, stink bean may help the body better recognize and fight cancer cells [2]. Antioxidant Activity and Cancer Prevention Role of Antioxidants in Cancer Prevention Antioxidants play a crucial role in protecting cells from damage caused by free radicals, which can lead to cancer. Stink bean’s high antioxidant activity may contribute to its potential as a cancer-preventive agent. Polyphenols, Phytosterols, and Flavonoids Extracts from stink bean’s empty pods and seeds are rich in polyphenols, phytosterols, and flavonoids, all of which have been linked to reduced cancer risk. These compounds work together to neutralize free radicals and lower oxidative stress, thereby reducing the likelihood of cancer development [5]. The Need for Further Research While the findings on stink bean’s anticancer properties are promising, more research is needed to fully understand its potential and efficacy. Current Research Limitations Most of the studies conducted so far have used crude extracts of stink bean, rather than isolated compounds. This makes it difficult to determine which specific components are responsible for the observed anticancer effects. Additionally, much of the research has been done in vitro or in animal models, so the results may not fully translate to humans [2]. Future Directions for Clinical Trials To establish stink bean as a viable option for cancer prevention or treatment, clinical trials involving human participants are essential. These trials would help determine the safety, dosage, and effectiveness of stink bean and its bioactive compounds in preventing or treating cancer. Conclusion In conclusion, stink bean (Parkia speciosa) shows promising potential as an anticancer agent, thanks to its antitumor and antimutagenic properties, bioactive compounds, and antioxidant activity. However, while the early findings are encouraging, much more research is needed to confirm its efficacy and safety in humans. As it stands, stink bean’s potential in cancer prevention and treatment remains preliminary, and future studies will be critical in determining its role in this area. FAQs 1. What are the main bioactive compounds in stink bean? The main bioactive compounds in stink bean include thiazolidine-4-carboxylic acid, phenolic acids, flavonoids, and lectins, all of which may contribute to its potential anticancer properties. 2. How does stink bean’s antioxidant activity help in cancer prevention? Stink bean’s antioxidant activity helps neutralize free radicals, reducing oxidative stress and potentially lowering the risk of cancer development. 3. Are there any clinical trials on stink bean’s anticancer properties? As of now, most studies on stink bean’s anticancer properties have been conducted in vitro or in animal models. Clinical trials involving human participants are still needed. 4. Can stink bean be used as a standalone treatment for cancer? Currently, stink bean is not recommended as a standalone treatment for cancer. More research is needed to establish its efficacy.