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Maxam-Gilbert Sequencing01:05

Maxam-Gilbert Sequencing

In the same year as the discovery of the Sanger sequencing method, another group of scientists, Allan Maxam and Walter Gilbert, demonstrated their chemical-cleavage method for DNA sequencing. The Maxam-Gilbert method relies on using different chemicals that can cleave the DNA sequence at specific sites, the separation of resulting DNA fragments of variable size using electrophoresis, and deciphering the DNA sequence from the resulting gel bands.
Challenges of the Maxam-Gilbert Method
The...
Sanger Sequencing01:57

Sanger Sequencing

DNA sequencing is a fundamental technique that is routinely used in the biological sciences. This method can be applied to a range of questions at different scales - from the sequencing of a cloned DNA fragment or the study of a mutation in a gene up to whole-genome sequencing. However, despite the widespread use of sequencing today, it was not until 1977 that Fredrick Sanger and his collaborators developed the chain-termination method to decode DNA sequences. It relies on the separation of a...
Chromosome Structure02:40

Chromosome Structure

A functional eukaryotic chromosome must contain three elements: a centromere, telomeres, and numerous origins of replication.
The centromere is a DNA sequence that links sister chromatids. This is also where kinetochores, protein complexes to which spindle microtubules attach, are constructed after the chromosome is replicated. The kinetochores allow the spindle microtubules to move the chromosomes within the cell during cell division.
Telomeres consist of non-coding repetitive nucleotide...
Signal Sequences and Sorting Receptors01:41

Signal Sequences and Sorting Receptors

Signal sequences are short amino acid sequences that guide newly synthesized proteins to their proper location within the cell. Classical signal sequences are fifteen to sixty amino acids long and present at the N-terminus of a polypeptide chain. Each signal sequence has a conserved segment of basic residues towards their N terminus, a hydrophobic core, and a C-terminus rich in polar residues. The C-terminus also contains a signal cleavage site and features a -3 -1 sequence motif. The -3-1...
Next-generation Sequencing03:00

Next-generation Sequencing

The first human genome sequencing project cost $2.7 billion and was declared complete in 2003, after 15 years of international cooperation and collaboration between several research teams and funding agencies. Today, with the advent of next-generation sequencing technologies, the cost and time of sequencing a human genome have dropped over 100 fold.
Next-Generation Sequencing Methods
Although all next-generation methods use different technologies, they all share a set of standard features.
RNA-seq03:21

RNA-seq

RNA sequencing, or RNA-Seq, is a high-throughput sequencing technology used to study the transcriptome of a cell. Transcriptomics helps to interpret the functional elements of a genome and identify the molecular constituents of an organism. Additionally, it also helps in understanding the development of an organism and the occurrence of diseases. 
Before the discovery of RNA-seq, microarray-based methods and Sanger sequencing were used for transcriptome analysis. However, while microarray-based...

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Updated: Jun 6, 2026

Novel Sequence Discovery by Subtractive Genomics
09:40

Novel Sequence Discovery by Subtractive Genomics

Published on: January 25, 2019

The origin and early reception of sequence databases.

Joel B Hagen1

  • 1Department of Biology, Radford University, Radford, VA, USA. jhagen@radford.edu

Methods in Molecular Biology (Clifton, N.J.)
|November 11, 2010
PubMed
Summary
This summary is machine-generated.

Novel scientific fields, like early computational biology using sequence databases, face challenges establishing identity and gaining acceptance from established disciplines. This research highlights the struggles of pioneering scientists in gaining recognition for new interdisciplinary approaches.

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Last Updated: Jun 6, 2026

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Area of Science:

  • Explores the sociology of scientific fields and the challenges of establishing new scientific disciplines.
  • Focuses on the historical development of computational biology and bioinformatics.

Background:

  • Emerging scientific fields must establish their identity in relation to established disciplines.
  • The development of sequence databases originated from protein sequencing in biochemistry.

Observation:

  • Protein biochemists initially viewed database development and research as "second-rate" science.
  • Computational biologists using digital computers and databases for evolutionary studies faced criticism from traditional biologists.

Findings:

  • Early computational biology, utilizing sequence databases, laid foundational work for modern bioinformatics, molecular evolution, and molecular systematics.
  • Scientists like Margaret Dayhoff and Walter Fitch encountered significant challenges in establishing the legitimacy of their computer-based evolutionary research in the 1960s.

Implications:

  • Understanding the historical challenges of novel sciences provides insights into the acceptance of emerging fields.
  • The study underscores the importance of interdisciplinary research and the pioneers who navigate institutional resistance.