Thursday, August 28, 2025

Gene That Differs Between Humans and Neanderthals Could Shed Light On The Species Disappearance Mouse Study Suggests 

 Allan Henderson (CC BY 2.0)

A gene called ASDL, which helps synthesize DNA, differs between modern humans and our extinct human relatives. The findings could shed light on why Neanderthals vanished. A protein that helps synthesize DNA is different in modern humans than it is in Neanderthals and Denisovans  our closest extinct relatives  and new experiments in mice genetically modified to express the modern human version hint that this may have made us behave differently…….Continue reading….

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Source:  Live Science

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In each cell of the human body, the human genome experiences, on average, tens of thousands of DNA damages per day. These damages can block genome replication or genome transcription, and if they are not repaired or are repaired incorrectly, they may lead to mutations, or other genome alterations in the human genome that threaten cell viability.

Most aspects of human biology involve both genetic (inherited) and non-genetic (environmental) factors. Some inherited variation influences aspects of our biology that are not medical in nature (height, eye color, ability to taste or smell certain compounds, etc.). Moreover, some genetic disorders only cause disease in combination with the appropriate environmental factors (such as diet).

With these caveats, genetic disorders may be described as clinically defined diseases caused by genomic DNA sequence variation. In the most straightforward cases, the disorder can be associated with variation in a single gene. For example, cystic fibrosis is caused by mutations in the CFTR gene and is the most common recessive disorder in caucasian populations with over 1,300 different mutations known.

Disease-causing mutations in specific genes are usually severe in terms of gene function and are rare, thus genetic disorders are similarly individually rare. However, since there are many genes that can vary to cause genetic disorders, in aggregate they constitute a significant component of known medical conditions, especially in pediatric medicine. Molecularly characterized genetic disorders are those for which the underlying causal gene has been identified.

Currently there are approximately 2,200 such disorders annotated in the OMIM database. Studies of genetic disorders are often performed by means of family-based studies. In some instances, population based approaches are employed, particularly in the case of so-called founder populations such as those in Finland, French-Canada, Utah, Sardinia, etc. Diagnosis and treatment of genetic disorders are usually performed by a geneticist-physician trained in clinical/medical genetics.

The results of the Human Genome Project are likely to provide increased availability of genetic testing for gene-related disorders, and eventually improved treatment. Parents can be screened for hereditary conditions and counselled on the consequences, the probability of inheritance, and how to avoid or ameliorate it in their offspring.

There are many different kinds of DNA sequence variation, ranging from complete extra or missing chromosomes down to single nucleotide changes. It is generally presumed that much naturally occurring genetic variation in human populations is phenotypically neutral, i.e., has little or no detectable effect on the physiology of the individual (although there may be fractional differences in fitness defined over evolutionary time frames).

Genetic disorders can be caused by any or all known types of sequence variation. To molecularly characterize a new genetic disorder, it is necessary to establish a causal link between a particular genomic sequence variant and the clinical disease under investigation. Such studies constitute the realm of human molecular genetics.

With the advent of the Human Genome and International HapMap Project, it has become feasible to explore subtle genetic influences on many common disease conditions such as diabetes, asthma, migraine, schizophrenia, etc. Although some causal links have been made between genomic sequence variants in particular genes and some of these diseases, often with much publicity in the general media, these are usually not considered to be genetic disorders per se as their causes are complex, involving many different genetic and environmental factors.

Thus there may be disagreement in particular cases whether a specific medical condition should be termed a genetic disorder. Additional genetic disorders of mention are Kallman syndrome and Pfeiffer syndrome (gene FGFR1), Fuchs corneal dystrophy (gene TCF4), Hirschsprung’s disease (genes RET and FECH), Bardet-Biedl syndrome 1 (genes CCDC28B and BBS1), Bardet-Biedl syndrome 10 (gene BBS10), and facioscapulohumeral muscular dystrophy type 2 (genes D4Z4 and SMCHD1).

Genome sequencing is now able to narrow the genome down to specific locations to more accurately find mutations that will result in a genetic disorder. Copy number variants (CNVs) and single nucleotide variants (SNVs) are also able to be detected at the same time as genome sequencing with newer sequencing procedures available, called Next Generation Sequencing (NGS).

This only analyzes a small portion of the genome, around 1–2%. The results of this sequencing can be used for clinical diagnosis of a genetic condition, including Usher syndrome, retinal disease, hearing impairments, diabetes, epilepsy, Leigh disease, hereditary cancers, neuromuscular diseases, primary immunodeficiencies, severe combined immunodeficiency (SCID), and diseases of the mitochondria.

NGS can also be used to identify carriers of diseases before conception. The diseases that can be detected in this sequencing include Tay-Sachs disease, Bloom syndrome, Gaucher disease, Canavan disease, familial dysautonomia, cystic fibrosis, spinal muscular atrophy, and fragile-X syndrome. The Next Genome Sequencing can be narrowed down to specifically look for diseases more prevalent in certain ethnic populations.

The human mitochondrial DNA is of tremendous interest to geneticists, since it undoubtedly plays a role in mitochondrial disease. It also sheds light on human evolution; for example, analysis of variation in the human mitochondrial genome has led to the postulation of a recent common ancestor for all humans on the maternal line of descent (see Mitochondrial Eve).

Due to the damage induced by the exposure to Reactive Oxygen Species mitochondrial DNA (mtDNA) has a more rapid rate of variation than nuclear DNA. This 20-fold higher mutation rate allows mtDNA to be used for more accurate tracing of maternal ancestry. Studies of mtDNA in populations have allowed ancient migration paths to be traced, such as the migration of Native Americans from Siberia or Polynesians from southeastern Asia.

It has also been used to show that there is no trace of Neanderthal DNA in the European gene mixture inherited through purely maternal lineage. Due to the restrictive all or none manner of mtDNA inheritance, this result (no trace of Neanderthal mtDNA) would be likely unless there were a large percentage of Neanderthal ancestry, or there was strong positive selection for that mtDNA.

 The Human Genome 

Initial sequencing and analysis of the human genome”

The complete sequence of a human genome”

Genome – Assembly – NCBI”

The complete sequence of a human Y chromosome”.

Human assembly and gene annotation”

Assembly of 43 human Y chromosomes reveals extensive complexity and variation”

A draft human pangenome reference”

An integrated map of genetic variation from 1,092 human genomes”

A global reference for human genetic variation”

Initial sequence of the chimpanzee genome and comparison with the human genome”

Comparing the human and chimpanzee genomes: searching for needles in a haystack”

The status of the human gene catalogue”

Human protein-coding genes and gene feature statistics in 2019″.

Similar Ratios of Introns to Intergenic Sequence across Animal Genomes”

The landscape of long noncoding RNAs in the human transcriptome”

The vast, conserved mammalian lincRNome”

Non-coding RNA: what is functional and what is junk?”.

Non-coding RNA”

The GENCODE pseudogene resource”

Human specific loss of olfactory receptor genes”

An integrated encyclopedia of DNA elements in the human genome”

ENCODE: My own thoughts”

What does our genome encode?”

Genoscope and Whitehead announce a high sequence coverage of the Tetraodon nigroviridis genome”.

Comparative studies of gene expression and the evolution of gene regulation”

Five-vertebrate ChIP-seq reveals the evolutionary dynamics of transcription factor binding”

Species-specific transcription in mice carrying human chromosome 21″

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Labels:genome,protein,dna,rna,organism,cancer,species,chromosome,humanbody,medicalnews,humancells,chemicalbonds

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100K Bitcoin System Effortless Crypto Earnings

Credit to: arminhamidian

The 100K Bitcoin System is an automated, AI-powered platform designed to help users generate free Bitcoin passively. It promises an easy, “set and forget” system with no need for technical skills, investment, or risks. The 100K Bitcoin System is an automated cryptocurrency earning platform designed to generate passive income through Bitcoin.

Developed by Glynn, the system leverages cutting-edge artificial intelligence to exploit market opportunities around the clock. The platform promises to deliver free Bitcoin earnings with minimal user intervention, making it an attractive option for individuals seeking a hands-off approach to crypto investing. Key aspects of the 100K Bitcoin System include:

  • AI-driven automation that handles all trading and earning activities.
  • Compatibility with all devices, allowing users to manage their earnings on-the-go.
  • A 180-day money-back guarantee, ensuring a risk-free investment.
  • No prior technical skills required, making it accessible to everyone.
  • A one-time setup that takes less than 10 minutes to complete.
  • No monthly fees, offering lifetime access with a single payment.
  • Exclusive bonuses and additional features for early adopters.
  • Seamless integration with major cryptocurrency exchanges, ensuring smooth transactions.
  • Advanced security measures to protect user data and funds.
  • Regular software updates to keep up with market trends and technological advancements.
  • A dedicated user dashboard providing real-time insights into earnings and system performance.
  • Customizable settings to tailor the system’s operation to individual preferences.
  • Automatic reinvestment options to compound earnings over time.
  • A community forum for users to share experiences and strategies.
  • Affiliate program for users to earn commissions by referring others.
  • Transparent reporting and audit trails to ensure trust and accountability.
  • Comprehensive risk management tools to minimize potential losses.
  • Multi-language support catering to a global audience.
  • Educational resources on cryptocurrency and blockchain technology.
  • Mobile app for enhanced accessibility and convenience.
  • Partnerships with industry leaders to offer exclusive benefits to users.
  • Performance tracking tools to analyze and optimize earning strategies.
  • Customer feedback integration to continuously improve the platform.
  • Robust API for developers to create custom applications and extensions.
  • 24/7 technical support to address any issues promptly.
  • Multi-currency support allowing diversification across various cryptocurrencies.
  • Social media integration for sharing achievements and updates.
  • Gamification features to make earning more engaging and rewarding

The system utilizes AI-driven algorithms to automate the trading process, ensuring efficient and effective market participation.  Designed for both beginners and experienced traders, the platform offers a simple and intuitive user interface. Users have access to real-time market data and performance analytics to make informed decisions. The platform supports scalability, allowing users to start small and grow their investment over time.

With no need for extensive technical knowledge, the system is accessible to a wide range of users. Advanced encryption and security protocols safeguard user information and funds.The system is designed to generate passive income with minimal user input.  Supports various cryptocurrencies for diversified investment opportunities.

The automated nature of the platform allows it to operate continuously, maximizing earning potential.  Provides users with access to educational materials to enhance their understanding of cryptocurrency and trading. Dedicated support team available 24/7 to assist with any issues or questions. Users can choose from different investment plans based on their risk tolerance and financial goals.

The platform offers transparency in operations, providing users with detailed reports and insights. Users can join a community of like-minded individuals to share tips, strategies, and experiences. The platform operates on a clear fee structure with no hidden charges.Continuous updates ensure the platform remains up-to-date with market trends and technological advancements.

Users can earn additional income by referring others to the platform. Fully functional mobile app allows users to manage their investments on-the-go. Users can customize the platform settings to align with their investment strategies.  Equipped with tools to help users manage and mitigate investment risks. The system claims a high success rate in generating returns for its users.

Accessible from desktops, tablets, and smartphones, ensuring flexibility. Offers a demo account for users to practice and familiarize themselves with the platform before investing real money. The platform includes reward programs to incentivize active participation and loyalty. The 100K Bitcoin System operates by utilizing advanced artificial intelligence algorithms to automate the process of cryptocurrency trading and earnings generation.

Upon signing up, users are guided through a simple setup process that typically takes less than ten minutes. Once the initial configuration is complete, the system begins its operation by scanning the cryptocurrency markets for potential trading opportunities. The AI algorithms analyze vast amounts of data, including market trends, historical prices, and current news, to make informed trading decisions.

Trades are executed automatically without the need for user intervention, which allows the system to operate 24/7. Users can monitor their earnings and system performance through a dedicated dashboard that provides real-time updates. Additionally, the platform offers customizable settings, enabling users to adjust risk levels, investment amounts, and other preferences to suit their individual strategies.

The system also includes robust security features to protect user data and funds, ensuring a secure trading environment. With its automated nature and user-friendly interface, the 100K Bitcoin System aims to provide a seamless and efficient way for users to earn passive income from cryptocurrency trading.

Source: https://100kbitcoins.com/

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Labels:crypto,bitcoin,investment,profits,activate,strategy,money,assets,system,market,funds,passiveincome,aialgorithm,data

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