Array-based translocation and rearrangement assays
First Claim
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1. A method for analysis of genomic rearrangements in a sample from a genome comprising:
- (a) digesting the sample with a selected restriction enzyme to obtain restriction fragments that have a first end tag from a plurality of first end tags and a second end tag from a plurality of second end tags, with the first end tag and the second end tag flanking a central portion, wherein the sequences of the first end tags and the sequences of the second end tags have been determined by a computer;
(b) ligating the restriction fragments to a common backbone fragment to form first circular molecules comprising restriction fragments and the common backbone, wherein the common backbone fragment has a first restriction enzyme recognition site for a first type IIS restriction enzyme at its first end and a second restriction enzyme recognition site for a second type ITS restriction enzyme at its second end;
(c) cleaving the first circular molecule using the first type IIS restriction enzyme and the second type IIS restriction enzyme to form a plurality of first fragments, each comprising the backbone fragment flanked by a first end tag and a second end tag and a second fragment containing the central portion of the restriction fragment;
(d) ligating the ends of the first fragments to form second circular molecules, wherein the ends of said first end tag and said second end tag in each fragment are ligated together to form a ditag, wherein each ditag comprises a first end tag and a second end tag that are immediately adjacent to one another in the ditag;
(e) amplifying at least a portion of the second circular molecules using a pair of primers complementary to said backbone to obtain amplification target comprising amplified ditags;
(f) hybridizing the amplification target to an array comprising at least 100,000 different ditag probes, wherein each ditag probe is perfectly complementary to a different first end tag from the plurality of first end tags, to obtain hybridized amplified ditags; and
,(g) determining at least a partial sequence of the second end tag in a plurality of the hybridized amplified ditags, wherein the presence in a hybridized amplified ditag of a first end tag from a first fragment and a second end tag from a second different fragment indicates a genomic rearrangement.
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Abstract
Methods for detecting genomic rearrangements are provided. In one embodiment, methods are provided for the use of paired end tags from restriction fragments to detect genomic rearrangements. Sequences from the ends of the fragments are brought together to form ditags and the ditags are detected. Combinations of ditags are detected by an on-chip sequencing strategy that is described herein, using inosine for de novo sequencing of short segments of DNA. In another aspect, translocations are identified by using target specific capture and analysis of the captured products on a tiling array.
134 Citations
12 Claims
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1. A method for analysis of genomic rearrangements in a sample from a genome comprising:
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(a) digesting the sample with a selected restriction enzyme to obtain restriction fragments that have a first end tag from a plurality of first end tags and a second end tag from a plurality of second end tags, with the first end tag and the second end tag flanking a central portion, wherein the sequences of the first end tags and the sequences of the second end tags have been determined by a computer; (b) ligating the restriction fragments to a common backbone fragment to form first circular molecules comprising restriction fragments and the common backbone, wherein the common backbone fragment has a first restriction enzyme recognition site for a first type IIS restriction enzyme at its first end and a second restriction enzyme recognition site for a second type ITS restriction enzyme at its second end; (c) cleaving the first circular molecule using the first type IIS restriction enzyme and the second type IIS restriction enzyme to form a plurality of first fragments, each comprising the backbone fragment flanked by a first end tag and a second end tag and a second fragment containing the central portion of the restriction fragment; (d) ligating the ends of the first fragments to form second circular molecules, wherein the ends of said first end tag and said second end tag in each fragment are ligated together to form a ditag, wherein each ditag comprises a first end tag and a second end tag that are immediately adjacent to one another in the ditag; (e) amplifying at least a portion of the second circular molecules using a pair of primers complementary to said backbone to obtain amplification target comprising amplified ditags; (f) hybridizing the amplification target to an array comprising at least 100,000 different ditag probes, wherein each ditag probe is perfectly complementary to a different first end tag from the plurality of first end tags, to obtain hybridized amplified ditags; and
,(g) determining at least a partial sequence of the second end tag in a plurality of the hybridized amplified ditags, wherein the presence in a hybridized amplified ditag of a first end tag from a first fragment and a second end tag from a second different fragment indicates a genomic rearrangement. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A method for detecting genomic rearrangements comprising:
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(a) fragmenting a genomic sample with a restriction enzyme to obtain restriction fragments each having a first terminal sequence and a second terminal sequence, said first and second terminal sequences being immediately adjacent to the cleavage site of the restriction enzyme; (b) ligating the restriction fragments each to a common backbone fragment, wherein said common backbone fragment includes a first and a second recognition site for a type IIs restriction enzyme, thereby forming first circular molecules each comprising said backbone fragment and one of said restriction fragments; (c) cutting said first circular fragments with said type IIs restriction enzyme to obtain ditag fragments comprising at least 10 bases of said first terminal sequence, at least 10 bases of said second terminal sequence and said common backbone fragment; (d) ligating the ends of said ditag fragments to form second circular molecules; (e) amplifying a portion of the second circular molecules wherein said portion includes the at least 10 bases of said first terminal sequence and at least 10 bases of said second terminal sequence, to obtain an amplification product; (f) analyzing said amplification product by hybridization to an array comprising at least 100,000 different supportbound probes wherein each probe is perfectly complementary to a different first terminal sequence and determining at least 5 bases of the sequence adjacent to the first terminal sequence to identify a plurality of combinations of first and second terminal sequences present in the same fragment; (g) comparing the results of (f) to predetermined combinations of first and second terminal sequences, wherein the predetermined combinations correspond to an absence of rearrangements, and wherein the combinations from (f) that do not match the predetermined combinations are indicative of genomic rearrangements. - View Dependent Claims (11)
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12. A method for analysis of genomic rearrangements in a sample of genomic DNA comprising:
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(a) digesting the sample with a selected restriction enzyme to obtain restriction fragments; (b) ligating the first end of the restriction fragments to a first end of a common backbone fragment and a second end of the restriction fragments to a second end of the common backbone fragment thereby forming circular molecules that each comprise a restriction fragment and the common backbone fragment, wherein the common backbone fragment has a first restriction enzyme recognition site for a first type IIS restriction enzyme and a second restriction enzyme recognition site for a second type IIS restriction enzyme; (c) cleaving the first circular molecule using the first type IIS restriction enzyme and the second type IIS restriction enzyme to form a plurality of first fragments, each comprising the backbone fragment flanked by a first end tag and a second end tag and a second fragment containing the central portion of the restriction fragment; (d) ligating the ends of the first fragments to form second circular molecules, wherein the ends of said first end tag and said second end tag in each fragment are ligated together to form a ditag, wherein each ditag comprises a first end tag and a second end tag that are immediately adjacent to one another in the ditag; (e) amplifying at least a portion of the second circular molecules using a pair of primers complementary to said backbone to obtain amplification target comprising amplified ditags; (f) hybridizing the amplification target to an array comprising at least 100,000 different ditag probes, wherein each ditag probe is perfectly complementary to a different first end tag from the plurality of first end tags, to obtain hybridized amplified ditags; and
,(g) determining at least a partial sequence of the second end tag in a plurality of the hybridized amplified ditags, wherein the presence in a hybridized amplified ditag of a first end tag from a first fragment and a second end tag from a second different fragment indicates a genomic rearrangement.
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Specification