Transcribing Collection (page 2)

Oestrogen related receptor-DNA complex. Molecular model of human estrogen related receptor-2 (heRR-2, purple) binding to a strand of DNA (deoxyribonucleic acid, red and yellow-green)

Max transcription factor-DNA complex. Molecular model of the Max transcription factor (purple and red) bound to a strand of DNA (deoxyribonucleic acid, light blue and orange)

Notch transcription, molecular model
Notch transcription. Molecular model showing a strand of DNA (deoxyribonucleic acid) being acted upon by various proteins and other molecules

Blind stenographer using dictaphone, 1911 C017 / 7865
Blind stenographer using dictaphone. Stenography is the practice of recording notes in shorthand, usually using a specialised typing machine

RNA polymerase molecule C016 / 2391
RNA polymerase. Molecular model of RNA polymerase (blue and purple) transcribing a strand of mRNA (messenger ribonucleic acid, centre) from a DNA (deoxyribonucleic acid) template (pink and purple)

RNA polymerase molecule C016 / 2390
RNA polymerase. Molecular model of RNA polymerase (beige and pink) transcribing a strand of mRNA (messenger ribonucleic acid, centre) from a DNA (deoxyribonucleic acid) template (pink and purple)

RNA polymerase molecule C013 / 9005
RNA polymerase. Molecular model of RNA polymerase (yellow) transcribing a strand of mRNA (messenger ribonucleic acid, pink) from a DNA (deoxyribonucleic acid) template (orange and turquoise)

TATA box-binding protein complex C013 / 8881
TATA box-binding protein complex. Molecular model showing a TATA box-binding protein (TBP) (purple) complexed with a strand of DNA (deoxyribonucleic acid, blue)

Pit-1 transcription factor bound to DNA C013 / 8872
Pit-1 transcription factor bound to DNA. Molecular model showing pituitary-specific positive transcription factor 1 (Pit-1) (purple and yellow) bound to a strand of DNA (deoxyribonucleic acid)

Monk transcribing a book
Book transcription. Coloured historical woodcut of a mediaeval monk transcribing a book. Before the invention of the printing press, in the 15th century, books had to be made by hand

Ribosome and mRNA
Ribosome protein and mRNA. Computer artwork of a protein (L30, spirals) from the large subunit of a yeast ribosome, complexed with messenger ribonucleic acid (mRNA, cylindrical strand)

Hands-free telephone, 19th century
Hands-free telephone. This telephone represented an advance on earlier models as it included headphones. It was known as a bi-telephone

RNA polymerase transcription, artwork
Artwork of a molecule of RNA polymerase (grey/blue) transcribing RNA (green/yellow) from promoter DNA (red, purple). RNA polymerase is an enzyme that synthesizes a complementary mRNA (messenger RNA)

Demonstration of perspective
Perspective. An artist (left) demonstrating a method for producing a perspective drawing from a plan. A vertical staff is used to trace over the plan (bottom)

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"Unveiling the Art of Transcribing: From Medieval Scholars to Modern Technology" In the depths of a dimly lit monastery, a dedicated medieval scholar meticulously transcribes ancient texts, preserving the wisdom of centuries past. The 16th century comes alive as monks in a convent immerse themselves in their sacred duty - illuminating and transcribing books with utmost care. Fast forward to the bustling streets of New York City, where an interior view reveals women at dictating machines in the New York Edison Co. Their nimble fingers dance across typewriters, capturing every word spoken with precision and speed. A parallel scene unfolds at Royal Normal College in Upper Norwood, where blind typists defy all odds and prove that determination knows no boundaries. Underneath the moon's gentle glow, an unknown figure embarks on his task in 1907. By candlelight or lamplight, he delves into transcription with unwavering dedication and passion for knowledge. Meanwhile, reporters at the Daily Chronicle feverishly write up their stories amidst a whirlwind of activity. Their pens race across paper as they capture every detail and essence of breaking news. Transcription takes many forms beyond words alone; it extends its reach into scientific realms too. An illuminated figure emerges from within DNA itself - MyoD muscle protein-DNA complex stands as a testament to our understanding of genetic codes. Illustrations depict DNA transcription unfolding before our eyes - TATA box-binding protein complexes intricately weaving together strands of life's blueprint. These molecular marvels hold secrets waiting to be unlocked by diligent scientists seeking answers to nature's mysteries. From medieval manuscripts to cutting-edge laboratories, it has evolved through time but remains rooted in its purpose: preserving knowledge and unraveling truths hidden within countless pages or microscopic structures. Whether by quill or keyboard, under candlelight or fluorescent bulbs' glare – transcribers continue their noble quest for accuracy and clarity.