                         SEQUENCE LISTING

<110>  Disney, et al.
 
<120>  PRECISE SMALL MOLECULE RECOGNITION OF A TOXIC CUG RNA REPEAT 
       EXPANSION

<130>  PA-1651_PC

<160>  11    

<170>  PatentIn version 3.5

<210>  1
<211>  25
<212>  DNA
<213>  Artificial Sequence

<220>
<223>  Synthetic Polynucleotide


<220>
<221>  misc_feature
<223>  Vivo-Morpholino antisense oligonucleotide

<400>  1
agcagcagca gcagcagcag cagca                                             25


<210>  2
<211>  36
<212>  DNA
<213>  Artificial Sequence

<220>
<223>  Synthetic Polynucleotide

<400>  2
cugcugcugc ugcugcugcu gcugcugcug cugcug                                 36


<210>  3
<211>  327
<212>  DNA
<213>  Artificial Sequence

<220>
<223>  Synthetic Polynucleotide

<400>  3
cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug       60

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug      120

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug      180

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug      240

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug      300

cugcugcugc ugcugcugcu gcugcug                                          327


<210>  4
<211>  1500
<212>  DNA
<213>  Artificial Sequence

<220>
<223>  Synthetic Polynucleotide

<400>  4
cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug       60

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug      120

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug      180

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug      240

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug      300

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug      360

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug      420

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug      480

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug      540

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug      600

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug      660

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug      720

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug      780

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug      840

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug      900

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug      960

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug     1020

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug     1080

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug     1140

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug     1200

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug     1260

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug     1320

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug     1380

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug     1440

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug     1500


<210>  5
<211>  40
<212>  DNA
<213>  Artificial Sequence

<220>
<223>  Synthetic Polynucleotide

<400>  5
gcgcgcgcgc gcgcgcgcgc gcgcgcgcgc gcgcgcgcgc                             40


<210>  6
<211>  30
<212>  DNA
<213>  Artificial Sequence

<220>
<223>  Synthetic Polynucleotide

<400>  6
cugcugcugc ugcugcugcu gcugcugcug                                        30


<210>  7
<211>  45
<212>  DNA
<213>  Artificial Sequence

<220>
<223>  Synthetic Polynucleotide

<400>  7
cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcug                       45


<210>  8
<211>  48
<212>  DNA
<213>  Artificial Sequence

<220>
<223>  Synthetic Polynucleotide

<400>  8
ccugccugcc ugccugccug ccugccugcc ugccugccug ccugccug                    48


<210>  9
<211>  36
<212>  DNA
<213>  Artificial Sequence

<220>
<223>  Synthetic Polynucleotide

<400>  9
cagcagcagc agcagcagca gcagcagcag cagcag                                 36


<210>  10
<211>  36
<212>  DNA
<213>  Artificial Sequence

<220>
<223>  Synthetic Polynucleotide

<400>  10
cggcggcggc ggcggcggcg gcggcggcgg cggcgg                                 36


<210>  11
<211>  2400
<212>  DNA
<213>  Artificial Sequence

<220>
<223>  Synthetic Polynucleotide

<400>  11
cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug       60

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug      120

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug      180

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug      240

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug      300

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug      360

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug      420

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug      480

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug      540

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug      600

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug      660

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug      720

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug      780

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug      840

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug      900

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug      960

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug     1020

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug     1080

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug     1140

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug     1200

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug     1260

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug     1320

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug     1380

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug     1440

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug     1500

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug     1560

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug     1620

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug     1680

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug     1740

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug     1800

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug     1860

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug     1920

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug     1980

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug     2040

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug     2100

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug     2160

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug     2220

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug     2280

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug     2340

cugcugcugc ugcugcugcu gcugcugcug cugcugcugc ugcugcugcu gcugcugcug     2400


