Saturday, November 16, 2024

Bhakti Yog: The Yog of Devotion

Chapter 12: With 20 verses or shlokas, the twelfth chapter is one of the shortest chapters, and it discusses the two types of Yogis and who among them is best.

Krishna, the Supreme Personality of Godhead (Shloka 2-20): 19 Shlokas

Arjuna (Shloka 1): 1 Shloka

Brief Summary: Arjun mentions that devoted Yogis may worship a personal form or a formless Brahman. Then, he enquired which of the two forms of worship was better.

The lord explains that worship of the formless aspect is harder due to the numerous challenges faced on that path. Therefore, the path of surrender and total devotion is the best.

Fix your mind on the Supreme personality of the Godhead. If not, follow Bhakti yoga (i.e., desire to attain me). If not, just work for me. Even by working for the lord, you can attain. If not, try to give up all the results of your work and try to be self-situated. 

Bhakti--> Knowledge-->Meditation-->renunciation of the fruits of your action

Characteristics of a true devotee:

  1. Not envious
  2. Friend of all living entities
  3. Free from false ego
  4. Equivanimity in happiness and distress
  5. Tolerant
  6. Contented
  7. Engaged in devotional service
  8. Mind and intelligence fixed upon Lord Krishna
  9. Not striving for results
  10. Neither laments nor desires
  11. Renounces both auspicious and inauspicious things
  12. Equipoised in honour and dishonour, heat & cold, happiness & distress, fame & infamy, fear & anxiety
  13. Free from contaminating associations
  14. Fixed in knowledge

Favorite Shlokas:

Shloka 12:

śhreyo hi jñānam abhyāsāj jñānād dhyānaṁ viśhiṣhyate

dhyānāt karma-phala-tyāgas tyāgāch chhāntir anantaram


Shloka 18-19:

samaḥ śhatrau cha mitre cha tathā mānāpamānayoḥ

śhītoṣhṇa-sukha-duḥkheṣhu samaḥ saṅga-vivarjitaḥ

tulya-nindā-stutir maunī santuṣhṭo yena kenachit

aniketaḥ sthira-matir bhaktimān me priyo naraḥ


Tuesday, October 22, 2024

Lost in translation: Llu to lu

In the 21st century, languages are dying out because people are gradually shifting to a more dominant language, often due to cultural assimilation following globalisation. The usual reason is that native speakers abandon their own language in favour of a widely spoken one, often from European countries that colonised large parts of the world in the previous century. Another form of cultural assimilation happens when large nation-states are formed from several language groups. Whatever the cause of language extinction, the result is the loss of not just the language but also the unique culture associated with those languages. For instance, during the British colonisation of India, the names of places were anglicised. The most well-known examples are Madras, Bombay and Calcutta, now known as Chennai, Mumbai and Kolkata. This renaming of cities (back to their native names) happened after the end of the British imperial period.

In his book "The Jungle Book", the Nobel Prize-winning author Rudyard Kipling uses the names "Oodeypore" and "Cawnpore" to refer to the cities of Udaipur and Kanpur. The excerpts from the book are provided below:

 “There is no one in the jungle that knows that I, Bagheera, carry that mark—the mark of the collar; and yet, Little Brother, I was born among men, and it was among men that my mother died—in the cages of the king’s palace at Oodeypore."

In a different section of the book:

“Umph!” said Big Toomai. “Thou art a boy, and as wild as a buffalo-calf. This running up and down among the hills is not the best Government service. I am getting old, and I do not love wild elephants. Give me brick elephant lines, one stall to each elephant, and big stumps to tie them to safely, and flat, broad roads to exercise upon, instead of this come-and-go camping. Aha, the Cawnpore barracks were good. There was a bazaar close by, and only three hours’ work a day.”

Little Toomai remembered the Cawnpore elephant-lines and said nothing. He very much preferred the camp life, and hated those broad, flat roads, with the daily grubbing for grass in the forage reserve, and the long hours when there was nothing to do except to watch Kala Nag fidgeting in his pickets.

The suffix "pur" is very common in the names of several Indian cities and probably derives from the ancient Sanskrit language and translates to "city". For example, the city of Nagpur has this suffix, and the city's name is probably derived from the Nag river that flows through the city. These names have not just influenced Indian thinking. Even the British developed enduring memories associated with these cities during their occupation of India. The "massacre" following the "Siege of Cawnpore" enraged the British army against the rebel sepoys enough to inspire the war cry "Remember Cawnpore!".

Such name changes, or rather the use of their unique English spellings, happened throughout India. Over the years, such name changes have continued, which correct the English spelling to more drastic name changes. The most recent change (in 2023) is renaming Ahmednagar to Ahilya Nagar. Interestingly, such name changes have resulted from efforts from diverse people with different motivations. To get a better understanding of such motivations, one can only wonder whether a noble laureate could spell the city of Chicago as Kikagu and get away with it. 

Bangalore was changed to Bengaluru in 2014 due to efforts initiated by the controversial U R Ananthamurthy, a Jnanpith Award winner. Several other cities in Karnataka were renamed during this same period. Notably, the suffix "uru" is comparable to the suffix "pur". However, the complexity of language has no bounds. Depending on the prefix which is combined with the suffix, one can either have ಲೂರು vs ಳೂರು. For example, in the Kannada version of Bengaluru, the correct suffix is ಳೂರು. However, in the case of cities like Baguru and Malluru, the correct suffix is ಲೂರು. In the case of both types of suffixes, the English spelling is still written as "luru". If the phonetic spelling is to be used ಲೂರು should be – Lūru, and ಳುರು should be – Ḷūru. The key difference is in the first letter, with "La" (ಲ) versus "Ḷa" (ಳ), reflecting a subtle phonetic difference in Kannada. At the very least, Bengaluru should be written as Bengalluru to capture this difference. 

Changing names due to cultural assimilation is not restricted to city names. Even in Science, as our understanding of the details improves, names can change. For example, gene names change to reflect the inter-relatedness of genes based on function and evolutionary history. We will discuss the example of CXCR6, which was initially named Bonzo at the time of its discovery. The original paper titled "Expression cloning of new receptors used by simian and human immunodeficiency viruses" describes the naming as follows:

The complementary DNA selected with the SIVagmTY01 pseudotypes was found to encode a new protein of 342 amino acids, which we named Bonzo, whereas its counterpart selected with the SIVmac1A11 pseudotypes encodes a protein of 360 amino acids, designated BOB (for brother of Bonzo). Comparison of these sequences with those in genome databases indicates that both molecules are members of the large family of G-protein-coupled receptors. BOB is identical to a previously cloned orphan receptor, GPR15 (ref. 15), whereas Bonzo has no identity to sequences in the expressed-sequence tag (EST) databases. Both BOB and Bonzo are related to chemokine-receptor family proteins but share only 25–30% amino-acid sequence identity with CCR5 and CXCR4.

Eventually, Bozo/STRL33 was identified as C-X-C motif chemokine receptor 6 (CXCR6), a CXCL16 receptor (A transmembrane CXC chemokine is a ligand for HIV-coreceptor Bonzo). The interaction between CXCR6-CXCL16 has important immune roles that have been the focus of several studies. For instance, CXCR6 is vital for maintaining CD8 tissue-resident memory (TRM) cells in the lungs. Buddhabhushan et al. use comparative genomic analysis of the CXCL16-CXCR6 axis to show variation in the DRF motif across vertebrates, with recurrent CXCR6 gene loss in 10 out of 36 bird orders, the crocodilians, and the elapid snakes. The blog post describing their paper provides some background about the study. While the dominance of one language over another or many others can lead to changes in the names of cities, the dominance of one way of viewing science over another leads to changes in the names of genes. Fortunately, the dominance of scientific thinking is primarily dictated by logic and rational thinking. Unfortunately, logic can only be applied based on certain known facts. Logic can result in illogical inferences if facts cannot be trusted.

Tuesday, October 15, 2024

The supreme influencer has all six attributes of an influencer

One of the most influential entities in today's world is the social media influencer. The all-pervading nature of social media has greatly impacted not just the youth but people across different sociodemographic groups. Therefore, it is impossible to ignore the influence of social media. To attain salvation, one can spread the lord's message through social media to make the best possible use of this influence. 

You must have one or more of the following attributes to be an influencer.

  1. Wealth (Example: Ratan Tata used his wealth to positively influence various spheres of society.)
  2. Strength (Example: Manoj Kumar Chopra)
  3. Fame (Example: LeBron James has fewer followers than Virat Kohli)
  4. Knowledge (Example: The mathematician Srinivasan Ramanujan)
  5. Beauty (Example: Angelina Jolie)
  6. Renunciation (Example: Yogi Adityanath)
Although these influencers wield large influence, this influence is not permanent. With time, wealth, strength, fame, knowledge, beauty and renunciates will be forgotten. We may remember only a small fraction of the influencers of the yesteryears. As more time passes, very few will be remembered. The supreme lord Krishan is the supreme influencer with all six attributes. Hence, his influence is very powerful and lasts for long periods. In the Bhagavad Gita, the supreme lord describes in Chapter 4 that he had imparted the supreme secret to the Sun God and his lineage. However, this knowledge was lost over time. The relevant verses are provided below:

BG 4.1: The Supreme Lord Shree Krishna said: I taught this eternal science of Yog to the Sun God, Vivasvan, who passed it on to Manu; and Manu, in turn, instructed it to Ikshvaku.

BG 4.2: O subduer of enemies, the saintly kings thus received this science of Yog in a continuous tradition. But with the long passage of time, it was lost to the world.

BG 4.3: The same ancient knowledge of Yog, which is the supreme secret, I am today revealing unto you, because you are My friend as well as My devotee, who can understand this transcendental wisdom.

Even the supreme influencer needs to provide knowledge in a form understandable to the people of the current age. Social media influencers can greatly impact society by passing on the spiritual knowledge of the Supreme lord Krishna. 

Saturday, August 31, 2024

Viśhwarūp Darśhan Yog: The universal form

Chapter 11: With 55 verses or shlokas, the eleventh chapter is one of three chapters with more than 50 verses. The other chapters are chapter-2 and 18. and it describes the opulence of Lord Bhagavan Sri Krishna.

Krishna, the Supreme Personality of Godhead (Shloka 5-8,32-34, 47-49, 52-55): 20 Shlokas

Arjuna (Shloka 1-4,15-31, 36-46, 51): 32 Shlokas

Sanjaya (Shloka 9,35, 50): 3 Shlokas

Brief Summary: In this chapter, Arjuna requests Lord Krishna to show his cosmic form/universal form. Lord Krishna blessed Arjuna with divine eyes so that he could see the universal form. Lord Krishna demonstrated (showed) the universal form as follows:

The universal form (Biology):

  1. Unlimited mouths
  2. Unlimited eyes
  3. Unlimited wonderful vision
  4. Celestial ornaments
  5. Many divine weapons
  6. Celestial garlands and garments
  7. Divine scent
  8. Body with many arms, bellies, mouths and eyes, limitless
  9. Terrible teeth
  10. Glowing eyes

    The universal form (Physics)Radiance of thousand suns, Sun & moon are eyes, blazing fire from the mouth

    The universal form (Spiritual): Lord Shiva, Bramha and different sages

    Demigods and sages feared the terrific manifestation of the Universal form and surrendered. Everybody looked on in wonder. Even Arjuna was bewildered and amazed, lost his steadiness of the mind. Arjuna could see the heads of sons of Dhrtarastra and their allies smashed between the teeth of the lord. Lord Krishna said except for Pandavas, everyone in the war field will be destroyed; it is already destined, and Arjuna is just an instrument. He guided Arjuna to follow the divine plan. Arjuna once again offered obeisance with folded hands. Arjuna describes the benevolent and fearful aspects of the Lord as the cause of all causes and limitless.

    Krishna==Air, fire, water, moon, Brahma, great-grandfather

    Arjuna apologised for the offences he committed, considering the Lord to be his friend. Just as a father forgives his son, friend, another friend, husband, and wife, Krishna also tolerates our mistakes. Therefore, Arjuna requests the lord to bestow grace on him. Subsequently, Arjuna requested the lord to be gracious and return to the four-armed form.

    Four-armed form:

    1. Helmet head
    2. Club, Wheel, Conch and Lotus flower in hand

    Krishna had not shown his universal form to anyone else as it required divine eyes. No one can see Lord Krishna's universal form in the material world even after studying the Vedas, performing sacrifices and charity, and performing pious activities and penances. As per Arjuna's request, the lord displayed his four-armed form and, subsequently, the two-armed form. Arjuna's mind composure could be restored by seeing the lord in a human-like form. Even demigods cherish the opportunity to see the universal form. Only through undivided devotional service can one understand Lord Krishna. 

    In the final verse, Lord Krishna assures liberation for the following: 

    1. One who engages in pure devotional service
    2. One who is detached from the results of fruitive activities
    3. One who works for me for the Lord
    4. One who makes the Lord as the goal of his life
    5. One who is friendly with every living entity


    Favorite Shlokas:

    Shloka 12:

    divi sūrya-sahasrasya bhaved yugapad utthitā
    yadi bhāḥ sadṛiśhī sā syād bhāsas tasya mahātmanaḥ

    Shloka 55:
    mat-karma-kṛin mat-paramo mad-bhaktaḥ saṅga-varjitaḥ
    nirvairaḥ sarva-bhūteṣhu yaḥ sa mām eti pāṇḍava

    Friday, June 7, 2024

    Genome-wide pattern discovery and the challenge of distinguishing biology from artefacts

    The number of genomes that are becoming available is increasing at a very fast pace (exponentially?). One of the early analyses that bioinformaticians focussed on was the discovery of genome-wide patterns such as gene density and its correlates and genetic diversity and its determinants. Identifying such patterns and verifying the reliability of the observed pattern is one of the first steps. Once such patterns are known, trying to decipher the processes underlying these patterns would be an important next step.

    Moving from Patterns to Processes would also involve the development of a strong theory that can make testable predictions. Once such a theory is available, it is possible to simulate scenarios and evaluate the theory. A well-grounded theory would be required to progress the scientific understanding of a field.

    The study by Teekas et al. examined a specific type of genetic region known as low complexity regions (LCRs) in the DNA of tetrapods, a group that includes amphibians, reptiles, birds, and mammals. LCRs are sequences in DNA that are made up of repetitive or simple sequences of nucleotides (the building blocks of DNA). These regions are interesting because they can change rapidly and might help organisms adapt to their environments.

    The Role of LCRs in Evolution and Adaptation

    LCRs can be a source of new traits and functions in organisms. The length and composition of LCRs are influenced by two main factors: mutation and natural selection. Mutation can change the DNA sequence randomly, sometimes leading to longer or shorter LCRs. For instance, mutations such as replication slippage (where the DNA copying process makes mistakes) can cause variations in LCR length. High levels of guanine (G) and cytosine (C) nucleotides, known as high %GC content, also contribute to these changes.

    On the other hand, natural selection can favour certain variations that are beneficial for survival and reproduction. The interplay between these mutations and selection pressures determines the specific characteristics of LCRs in different organisms.

    Key Findings

    1. Location and Function of Positively Selected Sites (PSS):
      • Positively selected sites (PSS) are parts of genes that have undergone selection because they provide some advantage.
      • PSS and LCRs are often found at the ends of genes in tetrapods.
      • PSS at the center of genes tend to be involved in defense mechanisms, such as the immune response, while PSS at the ends of genes are associated with more general functions.
    2. Characteristics of LCR-Containing Genes:
      • Genes with LCRs in tetrapods tend to have a higher %GC content.
      • These genes show a lower ratio of non-synonymous to synonymous substitutions (ω or dN/dS), indicating strong purifying selection. Purifying selection removes harmful mutations, ensuring the gene remains functional.
      • Despite the rapid functional diversity that LCRs can provide, they are subject to intense purifying selection to maintain beneficial traits.
    3. Purity and Position of LCRs:
      • LCRs are commonly found in genes but are less pure, meaning they have more variation.
      • As the purity of LCRs increases (i.e., they become more uniform), they tend to be located in specific parts of the gene, suggesting their evolutionary role depends on their composition.

    Supporting the Robustness of the Patterns

    The robustness of these patterns was supported through several methods:

    1. Consistency Across Data Sets:
      • The researchers observed these patterns across multiple tetrapod species, ensuring that the findings were not limited to a single group or dataset.
    2. Statistical Analysis:
      • They used statistical methods to test whether the patterns were significant and not due to random chance. This included analyzing the %GC content and ω ratios to confirm their observations.
    3. Replication and Validation:
      • The findings were validated by comparing different gene regions and across different species to ensure that the patterns were consistent and reproducible.

    Understanding Underlying Processes

    By identifying these patterns, the researchers gained insights into the underlying biological processes:

    1. Mutation and Selection Dynamics:
      • The study highlighted how mutations create variability in LCRs and how natural selection shapes these variations to enhance adaptability and function.
    2. Functional Roles of Gene Regions:
      • The position-specific roles of PSS within genes revealed how different parts of a gene can evolve to serve distinct functions, such as defence mechanisms or general cellular processes.
    3. Evolutionary Strategies:
      • The variation in %GC content and ω ratios between LCR-containing and non-LCR-containing genes illustrated different evolutionary strategies. LCRs contribute to rapid adaptation while being tightly controlled by purifying selection to prevent harmful mutations.

    Building a Theoretical Framework

    With the increasing availability of genomes, bioinformaticians can now analyze large datasets to discover genome-wide patterns, such as gene density and genetic diversity. Identifying and verifying the reliability of these patterns is a crucial first step. Once reliable patterns are known, the next step is understanding the underlying processes.

    In this study, the researchers' findings contribute to building a theoretical framework for understanding genetic diversity and adaptation:

    1. Model Development:
      • The identified patterns can be used to develop models that explain how LCRs evolve and contribute to functional diversity in genes. These models can help predict how genes adapt to environmental pressures.
    2. Integration of Mechanisms:
      • By integrating the roles of mutation and selection, the framework can explain how genetic diversity is generated and maintained in different species.
    3. Predictive and Explanatory Power:
      • A robust theoretical framework can predict new evolutionary trends and explain observed patterns in genetic data. For instance, it can help predict which genes might evolve rapidly in response to new environmental challenges.
    4. Guiding Future Research:
      • The framework can guide future research by highlighting key areas for investigation, such as the specific mechanisms by which LCRs influence gene function and adaptation.

    Moving from patterns to processes involves developing a strong theory to make testable predictions. Once such a theory is available, scientists can simulate scenarios and evaluate the theory's validity. A well-grounded theory is essential for advancing the scientific understanding of a field, as it provides a structured way to interpret data and predict future observations.

    Conclusion

    This study sheds light on the complex dynamics of low-complexity regions in the DNA of tetrapods. By revealing how these regions are influenced by mutation and selection and how they contribute to functional diversity and adaptation, the researchers have laid the groundwork for a theoretical framework to enhance our understanding of genetic evolution. The robustness of the findings, supported by rigorous statistical analysis and validation across multiple species, ensures that the patterns identified are reliable and meaningful. This framework will be invaluable for future studies exploring genetic diversity and the evolutionary processes that shape life on Earth.

    * This blogpost is generated using chatGPT 

    We talked about how Open Science is changing the way science is done and the important role of the Royal Society in facilitating this. The terms Open and Science have come together to form a new coalition championed by those disillusioned by the academic research culture. For instance, Rachael Ainsworth discusses how the "Research Culture is Broken, and Open Science can Fix It".





    Rachael Ainsworth is not the Royal Society. So it's not just established, well-known societies; even an individual with passion and dedication can advocate for open science. However, the world is the way it is, and it takes power, prestige, prominence in science and the credibility of a society to be heard. Michael Nielsen is somewhere in between the Royal Society and Rachael Ainsworth and describes himself as somebody who "helped pioneer...the modern open science movement". He uses interesting anecdotes involving important people to highlight the challenges of doing Open Science.


    We are also moving from a text-dominated communication medium to a video-dominated medium. Given the buzz currently surrounding Open Science, it seems reasonable that the study by Teekas and group be published in Open Biology: A fast, open-access Royal Society journal publishing high-impact biology at the molecular and cellular level. Of course, the manuscript spent over a year on bioRxiv and had seen multiple journals before making its way to the pre-print server in July 2023. Here is a brief timeline:

    XXXX-X-22-00131 on Wed, Sep 28, 2022, 3:04 PM
    XXXX-X-22-00131R1 on Thu, May 4, 2023, 2:39 PM
    XXXX-X-22-00131R2 on Fri, Oct 20, 2023, 3:53 PM
    XXXX-X-22-00131R3 on Mon, Nov 20, 2023, 1:25 PM
    XXXX-X-22-00131R4 on Wed, Nov 22, 2023, 12:26 PM

    XXXX-23-1023 on Fri, Nov 24, 2023, 2:23 PM

    XXXX-2023-2689 on Wed, Nov 29, 2023, 1:06 PM







    Sunday, December 31, 2023

    Vibhūti Yog: Yog through Appreciating the Infinite Opulences of God

    Chapter 10: With 42 verses or shlokas, the tenth chapter is one of the lengthier chapters, and it describes the opulence of Lord Bhagavan Sri Krishna.

    Krishna, the Supreme Personality of Godhead (Shloka 1-11,19-42): 35 Shlokas

    Arjuna (Shloka 12,18): 7 Shlokas

    Brief Summary: Initially, the lord explains his opulence to Arjuna by stating that he is the source of demigods and is unborn. All the qualities, good and bad are created by him (Intelligence, freedom from doubt, happiness and distress, fame and infamy, fear and fearlessness, etc.). Four great sages were followed by seven great sages, and the manus came from Krishna's mind. He is the source of the spiritual and material world. 

    The inquisitive Arjun further requests the lord to explain his mystical powers. In response, lord Krishna says his opulence is limitless, yet he will highlight the prominent aspects.
    • Supersoul- seated in the heart of all entities.
    • Aditya's: Vishnu
    • Lights: Sun
    • Stars: Moon
    • Maruts: Marichi
    • Vedas: Sama Veda
    • Demigods: Indra
    • Senses: Mind
    • Living beings: Consciousness
    • Rudras: Shiva
    • Yaksha: Rakshas
    • Lord of wealth
    • Vasu: Fire
    • Mountains: Meru
    • Chief: Brahaspati
    • Generals: Karthikeya
    • Bodies of water: Ocean
    • Sages: Brigu
    • Vibrations: Trancendental Om
    • Sacrifice: Chanting of holy names (Japa)
    • Immovable things: Himalaya
    • Trees: Banyan
    • Sages among the demigods: Narad
    • Gandarva: Chitarta
    • Perfect beings: Kapila
    • Horse: Uccahsrava
    • Lordly elephants: Iravat
    • Men: Monarch
    • Weapons: Thunderbolt
    • Cows: Surabhi
    • Procreation: Kandarpa, the god of love
    • Serpents: Vasuki
    • Nagas: Ananta
    • Aquatics: Varuna
    • Dispensers of justice: Yama
    • Demons: Prahalada
    • Beast: Lion
    • Birds: Garuda
    • Purifier: wind
    • Wielders of weapons: Rama
    • Fish: Shark
    • River: Ganga
    • Conclusive truth
    • Letters: A
    • Inexhaustible: Time
    • Creators: Bramha
    • Women: Fame, fortune, fine speech, memory, intelligence, steadfastness, patience
    • Hymns: Brahatsama
    • Months: Margashira
    • Seasons: Spring
    • Splendour, Victory, Adventure
    • Strong: Strength
    • Splendid: splendour
    • Pandavas: Arjuna
    • Sages: Vyasa
    • Great Thinkers: Usana
    • Descendants of Vrisni: Vasudeva
    • Culprits: Punishment
    • Victorious: Morality
    • Wise: Wisdom
    • Generating seed
    No end of the lord's divine manifestations. Only a few are described here.

    Favorite Shlokas:

    Shloka 4-5:

    buddhir jñānam asammohaḥ kṣhamā satyaṁ damaḥ śhamaḥ

    sukhaṁ duḥkhaṁ bhavo ’bhāvo bhayaṁ chābhayameva cha

    ahinsā samatā tuṣhṭis tapo dānaṁ yaśho ’yaśhaḥ

    bhavanti bhāvā bhūtānāṁ matta eva pṛithag-vidhāḥ

    Shloka 34:

    mṛityuḥ sarva-haraśh chāham udbhavaśh cha bhaviṣhyatām

    kīrtiḥ śhrīr vāk cha nārīṇāṁ smṛitir medhā dhṛitiḥ kṣhamā

    Tuesday, December 5, 2023

    What happens when journals close after operating for a few years

    More than a hundred or Hundreds of journals have disappeared from the internet. Journals provide a  record of scholarly work and are supposed to last for posterity. The by-line says that researchers have identified dozens of open-access or OA journals that went offline in the two decades spanning 2000-2020, and hundreds more could be at risk. Notably, the articles published by these OA journals have also vanished without any trace. These are not just articles published by "predatory journals" but even those published by journals associated with a "scholarly society or a research institution". Journals have sophisticated systems to back up and archive the scholarly record. The LOCKSS (Lots of Copies Keep Stuff Safe) Program launched by Stanford Libraries in 1999 is a pioneer in such efforts that have emerged over the years. 

    Each of these options exists on the internet. For instance,

    1. CLOCKSS
    2. Portico
    3. Public Knowledge Project’s Preservation Network (PKP PN)
    A record of which journals have archived their content on which repositories is available at the Keepers Registry. Recently, we published an article about "Hundreds of independent midsize deletions mediate DNA loss in wild relatives of Red Jungle Fowl" in the journal Animal Gene (previously known as Agri gene). Soon after the article appeared online, the journal announced, "This journal will be closed after December 31, 2023. Authors are invited to submit their manuscripts to Gene Reports or Gene." While not associated with any society, the journal published by Elsevier can be considered an honest-to-god, non-predatory journal. Nonetheless, it will stop publishing articles at the end of this year. Our article may be the last or one of the last five articles to be published by this journal. One could even argue we killed this journal as our paper marked the end of this journal. 

    With the ISSN of 2352-4065 and the title "Animal Gene." the journal is preserved on both the CLOCKSS Archive and Portico. Moreover, the pre-print of the manuscript was posted on bioRxiv before it was submitted to the journal. Given the availability of such multiple backups, it would appear our precious manuscript will survive the end of the world.