Sequence nucleotide

Primary structure peptide aird/or nucleotide sequence and the relationship between the PUB sequence and that found in the sequence database(s) StQUHS... 

EMBL (European Molecular Biology Laboratory) [33] is a nucleotide sequence database provided from the online host EBl. Release 73 (December, 2002) consists of over 20 million nucleotide sequences with more than 28 billion nucleotides. The information includes sequence name, species, sequence length, promoter, taxonomy, and nucleic acid sequence. 

EMBL European Bioinformatics Institute nucleotide sequence database biblio., sub- stance, se- quence 20mio nucleotide seq., 28billion nucleotides journals, author submis- sions European Bioinformatics Institute free daily http //www.e- hi.ac.uk/embl/ index.html... 

GenBank (NCBI, USA) EMBL Nucleotide Sequence Database (Europe) DDBJ (Japan) The three main nucleotide sequence databases, which are synchronised daiiy... 

Swiss-Prot, TrEMBL Annotated non-redundant protein sequence database, TrEMBL is a computer-annotated supplement to Swiss-Prot. TrEMBL contains the translations of all coding sequences present in the EMBL Nucleotide Sequence Database which are no yet integrated into Swiss-Prot... 

As the second educt (B), the plasmid ONA with complementary sticky ends is prepared separately. In the first step the isolated plasmid DNA is cut open by a special type of enzyme called restriction endonuclease. It scans along the thread of DNA and recognizes short nucleotide sequences, e.g., CTGCAG, which ate cleaved at a specific site, e.g., between A and G. Some 50 of such enzymes are known and many are commercially available. The ends are then again extended witfa he aid of a terminal transferase by a short sequence of identical nucleotides complementary to the sticky ends of educt (A). 

The amount of sample required is quite small as little as 10 mole is typical So many peptides and proteins have been sequenced now that it is impossible to give an accurate count What was Nobel Prize winning work m 1958 is routine today Nor has the story ended Sequencing of nucleic acids has advanced so dramatically that it is possible to clone the gene that codes for a particular protein sequence its DNA and deduce the structure of the protein from the nucleotide sequence of the DNA We 11 have more to say about DNA sequencing m the next chapter... 

The 1968 Nobel Prize in physiology or medicine was shared by Robert W Holley of Cornell University for determining the nucleotide sequence of phenylalanine transfer RNA... 

The contents of each tube are then subjected to electrophoresis m separate lanes on the same sheet of polyacrylamide gel and the DNAs located by autoradiography A typical electrophoresis gel of a DNA fragment containing 50 nucleotides will exhibit a pattern of 50 bands distributed among the four lanes with no overlaps Each band cor responds to a polynucleotide that is one nucleotide longer than the one that precedes it (which may be m a different lane) One then simply reads the nucleotide sequence according to the lane m which each succeeding band appears... 

Section 28 14 The nucleotide sequence of DNA can be determined by a technique m which a short section of single stranded DNA is allowed to produce its complement m the presence of dideoxy analogs of ATP TTP GTP and CTP DNA formation terminates when a dideoxy analog is incorporated into the growing polynucleotide chain A mixture of polynucleotides dif fermg from one another by an incremental nucleoside is produced and analyzed by electrophoresis From the observed sequence of the comple mentary chain the sequence of the original DNA is deduced... 

For example, a polypeptide is synthesized as a linear polymer derived from the 20 natural amino acids by translation of a nucleotide sequence present in a messenger RNA (mRNA). The mature protein exists as a weU-defined three-dimensional stmcture. The information necessary to specify the final (tertiary) stmcture of the protein is present in the molecule itself, in the form of the specific sequence of amino acids that form the protein (57). This information is used in the form of myriad noncovalent interactions (such as those in Table 1) that first form relatively simple local stmctural motifs (helix... 

After a desired clone is obtained and mapped with restriction enzymes, further analysis usually depends on the deterrnination of its nucleotide sequence. The nucleotide sequence of a new gene often provides clues to its function and the stmcture of the gene product. Additionally, the DNA sequence of a gene provides a guidepost for further manipulation of the sequence, for example, lea ding to the production of a recombinant protein in bacteria. 

Combinatorial Hbraries are limited by the number of sequences that can be synthesized. For example, a Hbrary consisting of one molecule each of a 60-nucleotide sequence randomized at each position, would have a mass of >10 g, weU beyond the capacity for synthesis and manipulation. Thus, even if nucleotide addition is random at all the steps during synthesis of the oligonucleotide only a minority of the sequences can be present in the output from a laboratory-scale chemical DNA synthesis reaction. In analyzing these random but incomplete Hbraries, the protocol is efficient enough to allow selection of aptamers of lowest dissociation constants (K ) from the mixture after a small number of repetitive selection and amplification cycles. Once a smaller population of oligonucleotides is amplified, the aptamer sequences can be used as the basis for constmcting a less complex Hbrary for further selection. 

Fig. 2. Two views of the stmcture of the TATA-box binding protein (TBP)—DNA complex, where TATA is the nucleotide sequence...

LDH-x is one of the best characterized antigens and its amino acid sequence is known. A synthetic peptide based on a portion of the molecule has been shown to reduce fertUity in laboratory animals. The nucleotide sequence coding for human LDH-x has been defined and engineered into an expression vector system (121). 

Streptokinase has a molecular weight of about 47,000 with a single chain of 415 amino acids there are no intramolecular disulfide bonds (64). The complete nucleotide sequence of the gene encoding the RNA for this protein has been reported (65,66). 

The first six chapters of this book deal with the basic principles of protein structure as we understand them today, and examples of the different major classes of protein structures are presented. Chapter 7 contains a brief discussion on DNA structures with emphasis on recognition by proteins of specific nucleotide sequences. The remaining chapters illustrate how during evolution different structural solutions have been selected to fulfill particular functions. 

All protein molecules are polymers built up from 20 different amino acids linked end-to-end by peptide bonds. The function of every protein molecule depends on its three-dimensional structure, which in turn is determined by its amino acid sequence, which in turn is determined by the nucleotide sequence of the structural gene. 

Table 8.1 The nucleotide sequences of the three protein-binding regions ORl, OR2, and OR3 of the operator of bacteriophage lambda...

The protein-DNA interactions have been analyzed in detail at high resolution in the complex between the 434 repressor fragment and the ORl containing 20mer DNA. A pseudo-twofold symmetry axis relates the halves of this complex. The symmetry is not exact since the nucleotide sequence of the DNA is slightly different in each half (see Table 8.2). However, the interactions between one protein subunit and one half of the DNA are very similar to those between the second subunit and the other half of the DNA since most of the bases that interact with the protein are identical in both halves. Details of the interaction are very similar to those in the complex with the palindromic synthetic 14mer of DNA shown in Figures 8.14 and 8.15. The base pairs at one end of the DNA, 1-14, 2-13, etc. are called base pairs 1, 2, etc. 

Figure 9.3 Comparison of the consensus nucleotide sequence of the TATA box (a) and the sequences of the DNA fragments used in the crystal structure determinations of the TATA box-binding proteins from yeast (b) and the plant Arabidopsis thaliana (c).

Figure 9.19 Nucleotide sequence of the 21-base pair DNA fragment cocrystalUzed with the DNA-binding domain of p53. The p53 binds in a sequence-specific manner to the shaded region.

Figure 10.2 (a) Amino acid sequence of a fragment of the Zif 268 protein that contains three zinc fingers. Residues forming the p strands and a helices are red and green, respectively, and those involved in the turn between the last p strand and the a helix are blue, (b) The nucleotide sequence of the DNA fragment that was used in the x-ray structure determination of the Zif 268 fragment complexed with DNA. 

Figure 10.12 Response elements for heterodimers of the nuclear receptor for ds-retinoic acid (RXR) with the receptors for vitamin D (VDR), thyroid hormone (TR) and trans-retinoic acid (RAR). The half-sites of these response elements have identical nucleotide sequences and are organized as direct repeats. They differ in the number of base pairs in the spacer region between the half-sites. This difference forms the basis for the ability of the heterodimers to discriminate between the different response elements.

The consensus nucleotide sequence (see Figure 10.20b) used in the crystals is a symmetrized version of naturally occuring API recognition sites, but GCN4 binds to this sequence with a high affinity. Each half-site in this DNA is bound to one monomer of the GCN4 dimer by both sequence-specific and... 

Different techniques give different and complementary information about protein structure. The primary structure is obtained by biochemical methods, either by direct determination of the amino acid sequence from the protein or indirectly, but more rapidly, from the nucleotide sequence of the... 

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