Method of sequencing

Details Method of sequencing Method of sequencing

1999-02-22

2002-01-08

Myers, Carla J. (Department: 1655)

Chemistry: molecular biology and microbiology

Measuring or testing process involving enzymes or...

Involving nucleic acid

C435S091200, C435S091500, C536S025300, C536S025320

Reexamination Certificate

active

06337185

ABSTRACT:

The present invention relates to a method of analyzing the sequence of a polynucleotide of interest. More precisely the invention relates to a method of sequencing both strands of the polynucleotide whereby the strands are immobilized to a solid support.
DNA sequencing is one of the most important technique by which the precise order of nucleotides in a piece of DNA in the genome of living organisms can be determined. There are two well establised methods used: The chemical degradation method by A. Maxam and W. Gilbert and the chain termination method by F. Sanger and A. R. Coulson. Today the sequencing methods are routine processes performed with automated equipment. Most automated sequensers are based on the chain termination method and utilize fluorescent detection.
According to the chain termination method the double stranded polynucleotide to be analyzed is separated in a first step, whereafter a sequencing primer is hybridized to the single strands. The problem with this step is that the re-annealing of the two strands compete with the primer hybridization. A method to avoid this, which has been developed during the last years, is solid phase sequencing. One strand of the double stranded polynucleotide is provided with one member of a specific binding pair. The other member of the binding pair is coated on a solid support. This binding pair is used to bind the polynucleotide to the support. After binding, the polynucleotide is denaturated and the strand without attachment member is washed away, thereby leaving the support with a single strand of polynucleotide attached to it. Then, the sequencing primers are added and there is no competition from re-annealing of the other strand. In this way much more pure sequencing products are obtained. More pure products result in better or sharper bands or signals from the detection instruments. This is very important e.g in detection of mutations. With the solid phase sequencing technique it is also easy to automate the handling of the samples.
Usually, in the solid phase technique only one of the two strands of a double stranded molecule has been provided with a binding member of a specific binding pair. Thereby only one of the two strands have been captured to the solid support and used in the sequencing reaction. It has been believed that only one of the strands can be used, due to the problems related to working with two complementary strands of equal size that tend to re-anneal.
For many applications it is desired to sequence both strands, for example to obtain a double check of the sequencing result. EP 371 437 relates to a solid phase sequencing method which, as one embodiment, utilizes both strands of the molecule. However, in this patent different binding members are attached to the two strands and the strands are captured to two different solid matrices. Thus, also with this method the risk for re-annealing has brought about the need for separate processing of the two strands.
The object of the present invention is to obtain an improved method of sequencing on a solid support.
A further object of the present invention is to present a sequencing method on a solid support by which both strands of a double stranded polynucleotide can be sequenced at the same time on the same solid support.
The objects of the invention are achieved by the method as claimed in the claims. According to the invention a method of analyzing a sequence of a polynucleotide of interest is obtained. The method comprises the steps of:
a) incorporating one member of a specific binding pair at the end of each strand of a double stranded polynucleotide of interest, the member being of the same type for both strands,
b) immobilizing both strands of the polynucleotide to a solid support provided with the other member of the specific binding pair,
c) annealing sequencing primers to the immobilized strands,
d) sequencing both strands by the chain termination method.
It has been found that the solid phase technique makes it possible to capture both strands of a polynucleotide in such an orientation that the tendency of having them re-annealing is avoided or largely reduced. Normally the two strands anneal in a manner that the 5′ end of one strand anneal to the 3′ end of the complementary strand. It was found that it was possible to attach a binding member to the 5′ end of each strand and to capture each strand to the solid support by this binding member. Then the two strands are separated by denaturation or the capture is made under denaturating conditions. The capture of the two strands by their 5′ end makes it more difficult for the two strands to “find” each other as the orientation of the strands is “wrong” for annealing to occur. It was surprisingly found that this “wrong” orientation was sufficient to avoid re-annealing. The expected “rearrangement” of the strands to re-anneal did not occur. The method according to the invention makes it possible to sequence both strands of one double stranded DNA at the same time on the same solid support. By using two differently labelled sequencing primers, one for each strand, the double amount of information is obtained from the sequencing reaction. Hence, it is possible to reduce the number of sequencing reactions by half, as two “different” DNA strands can be used as templates in the same sequencing reaction.
Incorporation of one member of the specific binding pair can be accomplished in conventional manners.
According to a prefered embodiment of the invention the polynucleotide of interest is amplified before or in connection with step a) of the method. Different amplification methods can be used such as amplification by a vector, e.g. as described in U.S. Pat. No. 5,405,746. According to this method the member of the specific binding pair is incorporated into the vector DNA by first linearizing the vector with restriction enzymes. Then the binding member is incorporated by ligation or by a DNA polymerase.
In a further prefered embodiment of the invention said polynucleotide is amplified by polymerase chain reaction extension or a first and second amplification primer, one primer being annealed to each strand of the double stranded polynucleotide. Both primers comprise the member of the specific binding pair and the members are of the same type for both primers, i.e. only one type of binding pair is used. In this manner copies of both strands of the polynucleotide bonded to said member of the specific binding pair are produced. The binding member can be incorporated into the 5′ end of the primer or internally in the primer.
Polymerase chain reaction (PCR) is a common, well-known amplification method which results in selective amplification of a chosen part of DNA molecule. The part of the DNA molecule is defined by a pair of primers wich are annealed to the molecule, one primer to each strand of the double stranded molecule.
The specific binding pair can be any pair of compounds with strong interaction between the members of the pair. Furter, it must be possible to incorporate one of the members of the pair into deoxynucleotides and to provide a solid support with the other member. The interaction between the members of the pair must be stable through the whole process. Example of such binding pairs are biotin—avidin, biotin—streptavidin, cystein—thiol groups, antigen—antibody, lectin—sugar.
The immobilization of the strands is performed in a conventional manner. The denaturing step can be performed during the immobilization or after. The strands can be separated with well known methods such as temperature increase or NaOH addition.
The solid support used according to the invention can be any one known in the art, e.g. magnetic or other beads, capillaries, microtitre wells. However, preferably the solid support is a manifold having a plurality of individual solid phase members. The solid phase members are adapted for cooperation with a corresponding set of receptacles, which contain the solutions for the different reaction steps. One preferred such system is disclosed in
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