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kumaun university phd entrance exam

Apply now for Kumaun University PhD Entrance Exam 2021: Exam Date, Admit card, Number of seats for Botany, Zoology, Biotechnology

Online application for kumaun university phd entrance exam known as Research degree entrance test (RDET) 2021 are out now. Online application starts 28/October/2021 Last date 5/December/2021 Examination Fees Rs 2,050 Tentative date of examination 19/December/2021 Admit Card Download Will be announced later Examination Centres Haldwani and Nainital Total Vacancy for Biotechnology 2 Total Vacancy for Botany 5 Total Vacancy for Zoology 2 Research Degree Entrance Test (RDET) 2021 5. Selection procedure, written exam, and interview 6. Download Admit Card for Kumaun University PhD 2021 Exam The download link will be available 7 days before the entrance exam. 7. Free online mock test for kumaun university phd entrance exam RDET 2021 8. Online application for RDET 2021 9. RDET 2021 PhD entrance exam information brochure

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WHO approves first antimalarial drug Mosquirix

First antimalarial drug Mosquirix The World Health Organisation (WHO) has approved the first antimalarial vaccine RTS, S/AS01 (Mosquirix™) in the world. The World Health Organization has finally approved the world’s first antimalarial drug. Why is this such a big deal? Well, I’ll tell you why, every two minutes a child dies of malaria and this vaccine can save that child and millions of others. The vaccine is called RTS,S (trade name Mosquirix), it is 40% effective and that too not against all types of malaria parasites. This vaccine targets the parasite that’s most common in Africa- Plasmodium falciparum. It’s a 4 dose vaccine with all doses given between the 5th and the 18th month of a child. How long did it take for the World Health Organisation to recommend this vaccine? The European Medicines Agency authorized it in 2015 but the WHO sat on it for six years. How long did the development of an antimalarial drug take? Centuries. Malaria has been claiming lives since the Mesopotamian civilization. In the 20th century alone malaria claimed nearly 300 million lives. Malaria was not the priority of western countries? Then why did it take so long to develop a vaccine? Was science not in its favour? Well, the problem was not science, the problem was with lack of political desire. You see research needs money and push but the countries devastated by malaria are the world’s poorest mostly African countries where a lot of families cannot even afford a mosquito net. Malaria was not the priority of the West. Let us talk some numbers, there are 229 million cases of malaria every year 94% of these cases are reported in Africa. The continent records more than 400,000 malaria deaths every year and most of these victims are children. Outside Africa, less than 90,000 people lose their lives to malaria every year so the world chooses to not care. Malaria vs Wuhan virus vaccine In contrast, consider the Wuhan virus it affects rich countries too. In 2020 the western world was suffering, the economy was suffering so companies deep-dived into research and governments poured billions of dollars to create vaccines on priority. The US alone donated $9 billion for COVID development in 2020. What about the malaria vaccine the entire world pulled together $7.3 billion in malaria research from 2007 to 2018 that’s less than a billion dollars every year. Yes, the malaria parasite is more complicated than the Wuhan virus but the story for the extremely delayed development of a malaria vaccine does not end there. The truth is that a malaria vaccine has never really been a priority. We saw how the covid vaccine smashed all records, we were rolling out doses at speed one couldn’t imagine in the pharmaceutical world. The world made not one not two more than 22 Wuhan virus vaccines in 20 months. Seven of them have already been given emergency use authorization by the World Health Organisation, 124 others are in clinical development stage 194 in preclinical trial and this is not a cooked up story, it’s the data from WHO. What explains the speed is that the vaccine makers, the approvers, the donors all had the required incentive. These vaccines had a market, a malaria vaccine does not have a market this big. Africa is a continent of 1.3 billion people that’s the population of India. Demand for a malaria vaccine is concentrated in just sub-Saharan Africa. WHO estimates say there could be a requirement of 110 million doses per year by 2036 that’s not a big market not big enough for pharma giants to book their resources. There is also not enough money to be made with the sale of each dose. GSK partners with Bharat bioetch in the production of first antimalarial drug GSK or GlaxoSmithKline the company producing the malaria vaccine has said that it will price the jab at 5% above the cost of production. 15 million annual doses will be produced for now and these vaccines will also be made in India. GSK has partnered with India’s Bharat biotech. Another vaccine called R21 is in stage three of clinical trials, it is being developed by Oxford University it will be made by the serum institute of India. Conclusion That’s all very well but could all of this have been fast-tracked? had malaria overwhelmed in the hospitals of New York, Italy, Spain or China perhaps the story would have been different and we sincerely hope it doesn’t spread to these parts. That’s not what we’re saying what we’re trying to say is that malaria for Africa is worse than covid. Malaria killed 386,000 Africans in 2019 the Wuhan virus killed 212,000 in the last 18 months. Because all of this is happening in Africa it never makes it to the headlines but now that we know how fast vaccines can be developed let’s try to not be blinded by profit. The world should apply this urgency to develop vaccines for other diseases too. Vaccines are a lifesaver and we have come a long way, we defeated smallpox, polio but there is still no long term vaccine for tuberculosis, West Nile, Zika, HIV, the malaria vaccine we say is a great start but there’s a long way to go. Suggested content to read 1. The love-hate relationship of mosquito towards the light 2. State of PhD in India

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What is Dipcovan developed by DRDO

Dipcovan- Covid-19 detection kit The Defence Institute of Physiology and Allied Sciences (DIPAS), a laboratory of DRDO located in New Delhi has developed a COVID-19 antibody detection kit Dipcovan. It can determine whether or not a person has been exposed to SARS-CoV-2. The kit has a shelf life of 18 months. It has been developed in association with Delhi-based Vanguard Diagnostics Pvt Ltd, for the qualitative detection of IgG antibodies in human serum or plasma, which are developed in response to the coronavirus antigens. The kit will be sold commercially by Vanguard Diagnostics from the first week of June. Dipcovan is a DIPAS-VDx Covid-19 IgG antibody microwell ELISA. It can detect both Spike & Nucleocapsid proteins of the virus with 97% sensitivity and 99% specificity.  It requires 75 minutes for the test to be done, and is expected to be priced at ₹75 per test.

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Retracted Covid-19 Research Papers

The side-effect of the rat race to publish  Hitting the Pub Med search tab with the keyword Covid-19 lists a whopping 1,35,105 results for the articles published between 2019-2021. Yes, researchers have been working very hard, however, many if not all are seeing this just as an opportunity to publish articles on a topic receiving intense interest from around the globe. The shooting number of research articles is also a consequence of researchers staying at home due to lock down and focusing just on writing rather than conducting research in the labs. Moreover, journals have developed a soft corner for those researchers who are publishing covid-related articles. According to a Nature article Covid related publications were peer-reviewed faster at medical journals while other research articles took longer than usual to get published. Compared with other topics, articles on COVID-19 have been shown to generate more citations. So, just to earn those citation numbers people are minting research articles as if publishing a newspaper column.  As of dated 18/5/2021, 109 papers published on Covid-19 have been retracted while 6 others have earned expressions of concerns. It is still early to conclude whether covid related publications are more prone to retractions than compared to other articles, as many other anomalous articles might still haven’t caught the eye of researchers. Leaving aside the lower impact journals, well established reputed journals including Lancet and New England journal of medicine are too amongst those which have received retractions.  Preprints (articles posted online before peer review) of the research articles available on the internet have also increased rapidly during the pandemic. Researchers might know what a preprint is but a common person surfing over the internet is rarely interested in the source and quality of the publication. It is obvious that a preprint that had not undergone proper scrutiny or peer-reviewing may appear trustworthy to someone not from a scientific background.  By the time the preprint undergoes reviewing and is proclaimed as unauthenticated research, the information in it is disseminated to millions of others on social media.  The question that arises is whether permitting early access to data of unclear quality to the few that are knowledgeable enough to save lives justifies exposure of such data to the many that are much less aware of the consequences? Publishing research articles were supposed to involve integrity and honour, but I suppose in the fast-paced world, researchers have become greedy to win the race to grab the maximum number of articles into their basket. There must be countermeasures to tighten the strap on such anomalies. Other articles to read- 1. Electric nose that detect H2S gas 2. State of a phd in India Data source of retracted papers

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Electric nose that can detect hydrogen sulfide gas

Artificial electric nose made which can detect emissions of hydrogen sulfide gas from sewers Scientists from the Centre for Nano and Soft Matter Sciences (CeNS) India,in collaboration with King Abdullah University of Science and Technology have developed an electronic nose with biodegradable polymer and monomer that can mimic olfactory receptor neuron, which enables us to detect the smell of various substances. During the microbial degradation of organic matter under anaerobic conditions in the sewers, hot-springs and during the production of crude-petroleum products, as well as while refining natural gases hydrogen sulphide (H2S) is produced.  H2S is a poisonous, corrosive, and flammable gas which at concentrations (less than 10 ppm) cause eye irritation and fatigue, and exposure to levels higher than 100 ppm results in severe neurological damage and cardiovascular conditions.  This artificial nose can protect humans from the harmful impact of this gas while working under such conditions. The total size of the device is 5 mm × 5 mm, exactly fitting on the tip of the forefinger.  The device can fit the tip of the forefinger. Image credit- https://rsc.li/2PYRR2W The material of the device The fabricated sensor consists of a heterostructure consisting of two layers – the top layer a monomer and is realized with a novel chemical tris (keto-hydrazone), which is both porous and contains H2S specific functional groups, and the bottom layer is the active channel layer which plays a key role in altering the current and mobility of charge carriers.   The two layers of the device. After exposure to the gas, the chemical reaction confirms the presence of gas. Image credit- https://rsc.li/2PYRR2W  Thus the synergistic combination helps to pre-concentrate the H2S molecules, initiate an acid-base chemical reaction, and thereby brings a change in the majority carriers (holes) of the channel region in the device. The capacitance sensor (a sensor that detects nearby objects by their effect on the electrical field created by the sensor) developed by the scientists showed an excellent sensitivity in detecting H2S gas with an experimental limit of detection of around 25 parts per billion. It also has high ambient stability of around 8 months without compromising sensing performance. Thus, this device can provide early detection of hydrogen sulfide gas present in the particular working area and protect workers from the harmful impact of the gas. Moreover, the devices sensing mechanism can be further modulated for the detection of other gases also. Source- Research paper, Vigyaan samachar

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Who got the nobel prize in medicine or physiology 2020?

The year 2020 Nobel prize in Medicine or Physiology has been awarded jointly to 3 scientists Harvey J. Alter and Charles M. Rice from America and Michael Houghton from United Kingdom for their discovery of Hepatitis C virus.  Harvey J. Alter, Charles M. Rice, and Michael Houghton (From left to right)   According to the World Health Organisation, there are 70 million people infected across the globe and 400,000 mortality each year due to the chronic virus. The disease caused by the virus is responsible for liver failure and liver cancer.  How was the Hepatitis C virus discovered? Hepatitis B virus was already discovered in the 1960s and was considered to be responsible for blood transmitted hepatitis, therefore, blood used to be tested for the virus before blood transfusions to avoid blood transfusion-related Hepatitis B disease.  Although the number of patients infected through blood transfusion was reduced post Hepatitis B screening, but a large group of individuals were still contracting the disease after blood transfusions. It meant that apart from Hepatitis B another unidentified causative agent responsible for the disease existed.  Harvey J. Alter and colleagues showed that blood from these infected individuals transmitted the disease to chimpanzees (only susceptible animal apart from humans). As the disease neither spread from Hepatitis A nor B so it was then called “non-A, non-B” Hepatitis.  Later almost after a decade, Michael Houghton in 1989 finally identified the unknown causative agent as the Hepatitis C virus. The final question of whether Hepatitis C virus can on its own cause hepatitis was answered by the work of Charles M. Rice. Rice’s lab works to understand virus replication and innate immune responses that fight infection.  Mode of transmission of Hepatitis virus Both Hepatitis B and C virus are found in the blood of infected individuals, therefore before blood transfusions, one is now checked for the presence of both the viruses. It can also be transmitted by sharing needles, sexual contact, contaminated medical or tattooing equipment’s. If a mother is infected with the virus she can also transmit it to her child during birth. It is important to note that Hepatitis A is not transmitted by blood or blood products. What is the significance of the Hepatitis C virus discovery? Identification of the causative agent of an infectious disease is the most basic and crucial step in fighting a successful battle against the disease. Due to their discoveries, today we have developed advanced testing kits to identify the Hepatitis C virus and have been able to prevent the blood transmitted hepatitis during blood transfusions.

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How coronavirus testing is being conducted?

The emergence of Coronavirus and Diagnosis Coronavirus disease (COVID-19) has emerged as that superstar who needs no introduction. Coronam is the Latin term for crown, and coronavirus has the crown-like appearance. As of now, global Covid-19 deaths have exceeded over 8 lakhs with total cases at 25.1 million and still counting. There was only one lab for testing on January 23, 160 labs on March 23 and 1370 labs by August, in India according to the health ministry.  Previously known as a 2019-novel coronavirus (2019-nCoV) was officially renamed to severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) by International Committee on Taxonomy of Viruses (ICTV) on February 11, 2020. This name was selected because the virus is genetically related (70% similarity) to the coronavirus responsible for the SARS outbreak of 2002. Diseases are officially named by WHO in the International Classification of Diseases (ICD) while viruses are named by the ICTV.   Diagnosis of COVID-19 involves multiple phases from sample collection to submitting data of individuals in the ICMR portal. Sample collection-  Most commonly, nasal and throat swabs are collected and transported to the nearest testing facility in the Viral transport medium. Each individual is assigned a unique Specimen Referral Form (SRF) ID at the time of sample collection, and details of the individual are recorded. Samples are received in the above cooling boxes Labelling and neutralization-  Once the samples reach their destined labs, they are allotted lab IDs which are meant to easily distinguish among different samples. Further, neutralization is carried in Biosafety cabinet (BSL-2 and above required), during which virus-cell lysis is done using lysis buffer. This procedure requires maximum preventive measures, as mishandling could result in virus spread. Post neutralization, samples are sent for RNA isolation. Post neutralization remaining sample volume is stored at -80 ֯ C RNA isolation-  Coronaviruses are a large family and its genetic material is a single-stranded positive-sense RNA (+ssRNA); thus, RNA isolation is must to detect its presence in an infected individual. This RNA is then converted to complementary DNA (cDNA), using an enzyme called reverse transcriptase and PCR is done. Internal controls are used as an indicator of perfect nucleic acid extraction, quality of samples, quality of PCR.  For a quicker screening of individuals pooled sample approach for RNA extraction is being employed. Under this approach, samples from individuals (3 or 5 samples are generally pooled into 1) are mixed into a single tube and RNA extraction proceeds.  If a pool appears negative for E-gene after RT-PCR (Real-time PCR), then all individuals are considered negative. However, if a pool is detected positive then, RNA extraction is individually done for the pooled samples and tested for E-gene as well as RdRp gene (RNA-dependent RNA polymerase). RdRp is essential for the replication of the virus genetic material once it infects a host. Thus, individuals are diagnosed positive or negative based on the results obtained from two different genes. Real-time PCR and data analysis-   In real-time PCR, a positive reaction is determined by the accumulation of a fluorescent signal. Generally, real-time assays undergo 40 cycles of amplification. The cycle at which the fluorescent signal can be detected is termed cycle quantification (Cq) value.  Some instruments show a cycle threshold (Ct) value instead, which is the number of cycles required for the fluorescent signal to cross the threshold value. Not to be confused, both the Cq and Ct values are technically similar. These values show how many cycles it took to detect a real signal from samples.  CY5 (cyanine5) is a synthetic dye which detects the internal control and thus confirms the quality of RNA and PCR. If Cq or Ct value for CY5 dye is nil, then the RNA extraction should be repeated. The other dye FAM (fluorescein amidite) is specific for coronavirus specific gene called E-gene. E-gene encodes a small membrane protein (E protein), necessary for the assembly of virions.  If a person tests positive, then there must be a Cq value for FAM (values greater than 36 are considered as false positives while between 22 to 36 are considered positive), while a person negative for the presence of the virus has no Cq value for FAM. Similarly, FAM is also capable to detect RdRp gene, which is another coronavirus specific gene. Furthermore, positive and negative controls provided with the real-time kit are also run simultaneously to verify the assay. Real-time PCR amplification curve showing Cq value of different samples The relation between Cq value and amount of target gene-  Cq values are inverse to the amount of the target gene (here E and RdRp gene) expression in samples. Lower Cq values indicate high amounts of target sequence while higher Cq values correspond to weak expression of the target gene. Other commonly available methods for testing  Rapid diagnostic tests based on antigen detection–  Rapid antigen tests account for about 30% of the total Covid-19 test conducted in India. The rapid test requires sampling similar for a molecular test (real-time PCR), but detects viral proteins (antigens) on the surface of the virus instead of genetic material and also provide results within 10-15 minutes.  However, antigen tests are not as sensitive as molecular tests but are useful due to their quicker output. Rapid antigen tests have been found to provide more false negatives and intermittent false positives. Due to these irregularities in the results, ICMR (Indian Council of Medical Research) has issued an advisory on antigen detection test, individuals who detect negative must be tested successively by RT-PCR to rule out infection, while a positive test should be considered true positive if the symptoms of the patients also, confirm so and does not require confirmation by RT-PCR. Rapid Antibody detection tests–  Antibody detection test is different from the other diagnostic tests, as it identifies people who were infected and have recovered. Unlike RT-PCR or antigen test, antibody detection requires a blood sample. It depends on the detection of antibodies against SARS-CoV2 in a blood sample, which can be easily obtained through a simple finger prick. Two different antibody isotypes, IgM and IgG are detected by this test. If a

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Love-hate relationship among mosquitoes towards light

1. Mosquitoes and their incessant buzz From vexatious buzz to itchy bites and their exceptional ability to escape from our murderous actions and buzzing around again as if chanting what a loser we were.  Yes, mosquitoes have been a threat to humans as they are vectors or carriers of deadliest diseases that have affected people across the globe. There are over 3,000 species of mosquitoes in the world and at least 400 of them can be found in India.  Before the female mosquito dies, it can produce up to 500 eggs. The only pleasant thing about mosquitoes is that they do not live long, but in the meantime, they contribute to the death of millions of individuals over the world. Yes, millions you read it right, according to World health organization every year mosquitoes result in deaths of over 1 million people around the world. Fun fact- Only female mosquitoes feed on blood, without which synthesis of yolk and development of eggs is implausible, while male mosquitoes get energy from plant nectar, rotten fruits and honeydew. Male mosquitoes are not able to suck blood from humans due to shorter mandibles. According to research published in the journal Frontiers in physiology, when male mosquitoes were allowed to feed on a blood-soaked cotton roll, they did not survive for too long. Thus concluding that blood is toxic for males. Below is the list of commonly caused diseases which utilize mosquitoes as a vector.     2. What research says?  In the latest research by Baik and colleagues, it has been found that preference of light or darkness by mosquitoes is dependent on the spectrum, time of day, sex and species of mosquitoes.  Dengue and malaria are the most widely heard diseases associated with mosquitoes, with dengue being caused by day-biting (diurnal) Aedes aegypti. In contrast, malaria is caused by anopheles which targets the vulnerable host at night (nocturnal). Aedes mosquitoes are more active and attracted to light during the day and become inactive and hide in dark locations once they have had their blood meal. In contrast, Anopheles coluzzii, Anopheles gambiae are inactive and specifically avoid ultraviolet (UV) and blue light during the day. 3. Circadian rhythm and mosquito response towards the light In a simple sense, the circadian rhythm is a 24-hour internal clock within almost every living organism which tells them when to do what irrespective of the external environmental conditions. These clocks are essential in determining the sleeping, feeding patterns and many more functions in all individuals, including humans.  However, these clocks can also become disrupted if natural external conditions are continuously manipulated, thus ultimately affecting once behavioural aspects. Similarly, in mosquitoes circadian clock functions to help diurnal/nocturnal mosquitoes in differentiating between day or night. While disruption of the clock by continuously exposing the mosquitoes towards artificial light for long hours confuses them and does not allow to distinguish between the day or night.  Thus, disruption of the circadian clock severely interferes with light-evoked attraction/avoidance behaviour, biting, flight and egg-laying activities in mosquitoes. 4. Why conditional differentiation of mosquito species occurs? Throughout evolution, different organisms of the species have evolved to differentiate in their abilities to avoid competition for survival. Similarly, different mosquito species might have evolved to occupy unique time-related differences (diurnal and nocturnal), so they can reduce inter-species competition and increase their opportunity of biting, mating and overall existence. It has been found that multiple behavioural changes occur in mosquitoes with respect to time of the day, which includes flight activity, mating, egg-laying, and biting. 5. Why light-based approaches can be substantial to target mosquitoes? Light-based strategies to control mosquitoes are relatively safer in comparison to toxic pesticides which are harmful to the environment. Moreover, mosquitoes and the disease-causing pathogens have become increasingly resistant towards currently available treatment regimen.  Thus, an environmentally friendly and innovative method against mosquito control is necessary. With the application of the light-based approach, specific species can be targeted if the timing and the light spectra used is efficiently monitored. For example, if high-intensity UV light is employed during the day, it will be ineffective against nocturnal mosquitoes. However, the same approach, when utilized appropriately, has produced significant results. A research stated that an exposure of female anopheles mosquito (nocturnal) which causes malaria towards light up to 10 minutes during the night or dusk period can retard its biting and flying ability. Thus, disruption of the circadian clock by using artificial light may be applied toward species-specific control of harmful diseases like dengue and malaria.

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State of PhD in India

Why do the majority of Indians seek to do a PhD?  The answer is a better-secured career, money, social status and so on, it’s unfortunate that research enthusiasm and the love for science has somewhere lost on the way. As a biologist, it’s disheartening to speak that the Indian education system has become an industry whose sole purpose is to manufacture PhDs. This has dramatically affected the law of supply and demand, which in turn has left hundreds of PhD scholars jobless. PhD in India has become more of a social flaunting rather than their own interest in research. This has collectively led to the decline of the research standards and research output.  The entrance to the PhD program is no more than a joke Our education system has always put us before a test and encourages those minds who can immaculately memorize the maximum number of jokes and pen down before missing out on any.  Biology, which should have been an experimentally learnt subject has turned into teaching Austin and Shakespeare.  How can a knowledge-based exam like CSIR-NET, GATE and UGC-NET etc. decide the research intellect a student possess? In the pursuit of clearing these entrances, students have helped to directly open another big industry in the likes of coaching institutes which prepares them to win the rat race. Running this rat race has put research into a borehole.  I have come across those students who have cleared the so-called exams but certainly miss the scientific temper and methods. Students cannot be blamed for this, but our inadequate research regulatory authorities are sure to be.  “India has an examination system, but not an education system,” said Professor CNR Rao in a letter to prime minister Manmohan Singh. Garnishing the same dish differently Either it is copy-paste research or modifying the little bits to make a new research paper out of already existing. Mostly, our university research revolves around blue sky research which has nothing to deal with problems of the real world. I am not against blue sky research, but yes, there should be a balance between blue sky and research which has practical applications.  Moreover, the ground realities of the prestigious institutes like IITs and NITs, which assume that they are the saviour of the research, but they are no different. They are in a state of delusion that they are at the top of the food chain. It’s like they are the best amongst the worse.  It’s harsh but true that most of the researchers are working on research problems just to mint research papers with no aim to deal with the issues. Moreover, we try to pick research problems from the western countries on which they have been already working and possess far better technologies. Indeed, we will be always behind them, so the cleverness is to choose a new research problem, make your own path and then begin. It’s hard to win a race which others have already begun but easy when you have no competitors  Publish or perish We have created an organizational setup of awards and rewards, so people in the research community expect you to publish soon or perish. It should be understood that original research takes time to work on, but in the feeling of going unnoticed and left behind researchers either do unoriginal research or avoid taking risks and choose safe, ordinary projects. Ethical, as well as intellectual integrity, is being compromised in doing so.  Well, it is undoubtedly harsh on the students to develop eureka moments overnight who have been spoon-fed until their postgraduates. Lately, researchers have been publishing in high impact factor journals, but it should not be misinterpreted as work of great significance.  Promotion rules are a disaster  Currently, quantity not the quality of PhDs handled by a supervisor determine his or her promotion to become a professor or director of the institute.  Similarly, the number of papers one publishes or the number of national or international conferences organized helps in earning points which allows them to reach a step closer to promotion. Is this a research institute set up or a management organization? Where one has to earn points to reach up the ladder.  This institutional setup has corrupted the researchers to publish based on quantity, which has directly affected the quality of research. Supervisors are in a hurry for promotion, students are in a hurry to get a degree before their scholarship duration runs out and in the meantime, research is being limited to just Re-SEARCH. Conclusion According to QS world university rankings 2021, we have only 8 institutes in the top 500 list with IIT Bombay at 172nd and Indian Institute of Science at 185th. It is a shame that out of 459 state and central universities not a single could make into these rankings. Low research standards are certainly to be blamed for this, and the University grant commission should look into the issue and make necessary amendments in the research norms and guidelines which are outdated.  It is also essential for the young folks to have a thorough insight and passion for the work they will be pursuing. Otherwise, on the research front, we as a nation could never achieve what others have.  From my personal experience, I would say… PhD is like one of those places where from outside everybody wants to get in and from the inside, many want to get out. So, choose wisely before you wish for one

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