Molecular Biologist (On-site | Amman)
GenoDiscovery (Amman, Jordan) is seeking a highly competent Molecular Biologist to join its molecular biology laboratory and research services team.
This position is intended for experienced molecular biologists who can work beyond routine protocols and actively contribute to advanced laboratory workflows, method optimization, and complex testing projects.
Mandatory Requirements:
• BSc or MSc in Biotechnology or Genetic Engineering ONLY
(MSc holders are highly welcomed)
• Minimum 1 year of proven experience in a molecular biology research laboratory
• Strong hands-on expertise in:
• DNA/RNA extraction from multiple biological sources
• Conventional PCR & real-time PCR (qPCR)
• Genotyping and gene expression analysis
• NGS library preparation, sequencing workflows, and data interpretation
• Excellent command of aseptic techniques and operation of advanced laboratory instruments
• Proven experience in SOP writing and scientific documentation
• Ability to troubleshoot, optimize protocols, and deliver accurate results under strict deadlines
• High level of precision, accountability, and analytical thinking
• Amman residents only
• Ready for full-time, on-site work
🚫 Hard Filter:
Candidates limited to routine testing only, without experience in troubleshooting, protocol optimization, or independent data interpretation, will not be considered.
📌 Apply only if you meet all the above requirements
📧 Send CV to: [email protected] (ONLY)
Egyptian stem cell researchers
Contact information, map and directions, contact form, opening hours, services, ratings, photos, videos and announcements from Egyptian stem cell researchers, Education, Asyut.
15/02/2026
Apoptosis Vs Necrosis
🧬 1. Definition
Apoptosis is a planned and controlled process of cell death. The cell actively participates in its own destruction in an orderly way.
Necrosis is an accidental and uncontrolled form of cell death that happens when a cell is severely damaged.
🌿 2. Nature (Physiological vs Pathological)
Apoptosis is a normal and useful biological process. It helps shape organs, remove damaged cells, and maintain tissue balance.
Necrosis is always abnormal and harmful. It occurs due to disease, injury, or severe stress on cells.
⚠️ 3. Cause
Apoptosis happens due to internal genetic signals or controlled external signals (like DNA damage, aging cells, or development).
Necrosis occurs due to external injury such as trauma, infection, toxins, burns, or lack of oxygen (ischemia).
👥 4. Cells Affected
Apoptosis usually affects individual cells in a tissue without disturbing neighboring cells.
Necrosis often affects large groups of cells in a region because injury usually damages many cells at once.
📉 5. Cell Size
Apoptosis: The cell shrinks as it breaks down neatly.
Necrosis: The cell swells because it loses control of water and ion balance.
🧱 6. Cell Membrane
Apoptosis: The cell membrane stays intact and forms small sealed fragments called apoptotic bodies.
Necrosis: The cell membrane breaks open (ruptures), spilling cell contents outside.
🧪 7. Cell Contents
Apoptosis: Cell contents are safely packaged and removed by immune cells (phagocytes).
Necrosis: Cell contents leak into surrounding tissue, damaging nearby cells.
🔥 8. Inflammation
Apoptosis: No inflammation occurs because cell contents do not leak.
Necrosis: Inflammation occurs because leaked cell materials trigger immune reactions.
⚡ 9. Energy Requirement
Apoptosis requires energy (ATP) because it is an active, controlled process.
Necrosis does not require energy — it happens when the cell loses energy and control.
🧩 10. Mechanism
Apoptosis is regulated by special enzymes called caspases that systematically dismantle the cell.
Necrosis occurs when cell structures break down uncontrollably due to damage.
🌱 11. Effect on the Body
Apoptosis is beneficial — it removes unwanted, damaged, or infected cells and supports healthy development.
Necrosis is harmful — it damages tissue and may worsen disease.
🩺 12. Example
Apoptosis: Removal of webbed tissue between fetal fingers, elimination of old immune cells.
Necrosis: Tissue death after a heart attack, severe burns, or bacterial infection.
Histology is still at the cornerstone of clinical pathology, underlying the power of tissue morphology in discriminating between different disease entities, predicting patient outcomes, and guiding treatment decisions
16/10/2025
Nobel Laureate Professor Sir John Gurdon dies aged 92 It is with great sadness that the University shares the news of the death of Professor Sir John Gurdon, founder of the Gurdon Institute.
05/10/2025
PhD Student in the Stem Cells and Cancer Lab - Prof. Arianna Baggiolini
Institute of Oncology Research (IOR)
IOR - Institute of Oncology Research in Bellinzona, Switzerland
Deadline: November 15th, 2025
Details 👇
24/09/2025
Apply early not too late
26/07/2025
In a major breakthrough, Japanese scientists at Mie University used CRISPR to remove the extra chromosome 21 from lab-grown cells of individuals with Down syndrome. The edited cells showed improved function and normalized gene expression. Though not yet ready for clinical use, the study marks a significant step toward future genetic therapies.
26/06/2025
The mouse (Mus musculus) is considered the best superstar animal model in biomedical research for several compelling reasons, spanning genetics, physiology, practical utility, and translational relevance.
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🧬 1. Genetic Similarity to Humans
Mice share about 95–98% of their genes with humans.
Many genes involved in disease, development, and physiology are highly conserved.
This makes them ideal for modeling human diseases, including cancer, diabetes, neurodegenerative diseases, and autoimmune disorders.
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🧪 2. Ease of Genetic Manipulation
Mice were the first mammals to be genetically engineered.
Availability of transgenic, knockout, and CRISPR/Cas9-modified strains allows researchers to study specific gene functions.
The International Knockout Mouse Consortium has created thousands of gene-specific models.
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🐁 3. Short Reproductive Cycle and Lifespan
Mice reproduce quickly: gestation ~19–21 days, sexual maturity at 6–8 weeks.
A short lifespan (~2 years) allows for aging studies and observing disease progression over a full life course in a short time.
---
💉 4. Well-Characterized Immune System
Extensive knowledge of the mouse immune system makes it ideal for studying:
Immunotherapy
Vaccine development
Autoimmune and inflammatory diseases
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🧠 5. Behavioral and Neurological Research
Mice are widely used in neuroscience and psychology due to their well-understood brain structure and behavior.
Common in studies on learning, memory, anxiety, depression, and neurodegeneration (e.g., Alzheimer’s).
---
🧾 6. Vast Research Infrastructure and Resources
A massive base of published literature, commercial vendors, and research tools supports mouse-based research.
Organizations like The Jackson Laboratory offer an extensive library of genetically defined mouse strains.
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🔬 7. Cost-Effective and Practical
Mice are small, easy to house, and relatively inexpensive to maintain.
Require less compound/material for drug testing compared to larger animals.
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🔄 8. Translational Relevance
Many preclinical trials begin in mouse models.
Though not perfect, results in mice often provide crucial insights that guide clinical research in humans.
22/06/2025
PCR (Polymerase Chain Reaction) is a molecular biology technique used to amplify specific DNA sequences. There are several types of PCR, each designed for different applications.
🔬 Types of PCR:
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1. Conventional PCR (Standard PCR)
Purpose: Amplifies DNA.
Output: Detects the presence or absence of a DNA fragment.
Limitation: Cannot quantify DNA.
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2. Real-Time PCR (qPCR or Quantitative PCR)
Purpose: Measures the amount of DNA during the amplification process.
Advantage: Quantifies DNA in real-time using fluorescent dyes.
Application: Viral load detection (e.g., HIV, COVID-19).
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3. Reverse Transcription PCR (RT-PCR)
Purpose: Used to amplify RNA by converting it into DNA first.
Steps:
1. RNA → cDNA (by reverse transcriptase)
2. Then PCR
Application: Detects RNA viruses (e.g., SARS-CoV-2).
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4. Multiplex PCR
Purpose: Amplifies multiple DNA targets in a single PCR reaction.
Advantage: Saves time and reagents.
Application: Detecting multiple pathogens or mutations in one test.
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5. Nested PCR
Purpose: Increases specificity.
Process: Two sets of primers are used in two PCR rounds.
Application: Detection of low-copy-number targets or contaminated samples.
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6. Digital PCR (dPCR)
Purpose: Highly accurate quantification of DNA.
Method: The DNA sample is divided into thousands of tiny reactions.
Application: Mutation detection, precise DNA/RNA quantification.
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7. Hot Start PCR
Purpose: Prevents non-specific amplification at low temperatures.
Method: Special enzymes are activated at high temperatures only.
Application: High-precision PCR.
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8. Touchdown PCR
Purpose: Increases specificity by gradually lowering the annealing temperature.
Application: Amplifying difficult or unknown DNA sequences.
21/06/2025
🌟 New Presentation Just Released! 🌟
“Stem Cells & Immune Modulation: The Future of Regenerative Medicine?”
Designed to inform, inspire, and open new doors for scientific cooperation!
✅ Highlights:
🔹 How stem cells influence the immune response
🔹 Future prospects of regenerative therapies
🔹 Scientific insights based on updated data & experiments
👨🔬 I'm sharing this as part of my mission to raise awareness and seek collaborative opportunities in stem cell research and biomedical sciences.
https://www.linkedin.com/feed/update/urn:li:activity:7342170551190183936/
Overview of Stem Cells and Immune Modulation.ppsx Overview of Stem Cells and Immune Modulation.ppsx - Download as a PDF or view online for free
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