                         SEQUENCE LISTING

<110>  Macquarie University
 
<120>  Cell Culture Substrates

<130>  P106325.PCT

<150>  AU2017903293
<151>  2017-08-16

<160>  35    

<170>  PatentIn version 3.5

<210>  1
<211>  4
<212>  PRT
<213>  Artificial

<220>
<223>  N-terminal lysine modified with Ar-CH2OC(=O)


<220>
<221>  MOD_RES
<222>  (1)..(1)
<223>  Ar-CH2OC(=O)-(Lys)

<400>  1

Xaa Lys Phe Phe 
1               


<210>  2
<211>  4
<212>  PRT
<213>  Artificial

<220>
<223>  N-terminal lysine modified with Ar-CH2OC(=O)-


<220>
<221>  MOD_RES
<222>  (1)..(1)
<223>  Ar-CH2OC(=O)(Lys)

<400>  2

Xaa Lys Val Val 
1               


<210>  3
<211>  4
<212>  PRT
<213>  Artificial

<220>
<223>  N-terminal tyrosine modified with Ar-CH2OC(=O)-


<220>
<221>  MOD_RES
<222>  (1)..(1)
<223>  Ar-CH2OC(=O)(Tyr)

<400>  3

Xaa Lys Tyr Lys 
1               


<210>  4
<211>  4
<212>  PRT
<213>  Artificial

<220>
<223>  N-terminal tyrosine modified with Ar-CH2OC(=O)-


<220>
<221>  MOD_RES
<222>  (1)..(1)
<223>  Ar-CH2OC(=O)(Tyr)

<400>  4

Xaa Tyr Lys Lys 
1               


<210>  5
<211>  4
<212>  PRT
<213>  Artificial

<220>
<223>  N-terminal lysine modified with Ar-CH2OC(=O)-


<220>
<221>  MOD_RES
<222>  (1)..(1)
<223>  Ar-CH2OC(=O)(Lys)

<400>  5

Xaa Lys Tyr Tyr 
1               


<210>  6
<211>  4
<212>  PRT
<213>  Artificial

<220>
<223>  N-terminal tryptophan modified with Ar-CH2OC(=O)-


<220>
<221>  MOD_RES
<222>  (1)..(1)
<223>  Ar-CH2OC(=O)(Trp)

<400>  6

Xaa Lys Trp Lys 
1               


<210>  7
<211>  4
<212>  PRT
<213>  Artificial

<220>
<223>  N-terminal tryptophan modified with Ar-CH2OC(=O)-


<220>
<221>  MOD_RES
<222>  (1)..(1)
<223>  Ar-CH2OC(=O)(Trp)

<400>  7

Xaa Trp Lys Lys 
1               


<210>  8
<211>  4
<212>  PRT
<213>  Artificial

<220>
<223>  N-terminal lysine modified with Ar-CH2OC(=O)-


<220>
<221>  MOD_RES
<222>  (1)..(1)
<223>  Ar-CH2OC(=O)(Lys)

<400>  8

Xaa Lys Trp Trp 
1               


<210>  9
<211>  4
<212>  PRT
<213>  Artificial

<220>
<223>  N-terminal isoleucine modified with Ar-CH2OC(=O)-


<220>
<221>  MOD_RES
<222>  (1)..(1)
<223>  Ar-CH2OC(=O)(Ile)

<400>  9

Xaa Lys Ile Lys 
1               


<210>  10
<211>  4
<212>  PRT
<213>  Artificial

<220>
<223>  N-terminal isoleucine modified with Ar-CH2OC(=O)-


<220>
<221>  MOD_RES
<222>  (1)..(1)
<223>  Ar-CH2OC(=O)(Ile)

<400>  10

Xaa Ile Lys Lys 
1               


<210>  11
<211>  4
<212>  PRT
<213>  Artificial

<220>
<223>  N-terminal lysine modified with Ar-CH2OC(=O)-


<220>
<221>  MOD_RES
<222>  (1)..(1)
<223>  Ar-CH2OC(=O)(Lys)

<400>  11

Xaa Lys Ile Ile 
1               


<210>  12
<211>  4
<212>  PRT
<213>  Artificial

<220>
<223>  N-terminal leucine modified with Ar-CH2OC(=O)-


<220>
<221>  MOD_RES
<222>  (1)..(1)
<223>  Ar-CH2OC(=O)(Leu)

<400>  12

Xaa Lys Leu Lys 
1               


<210>  13
<211>  4
<212>  PRT
<213>  Artificial

<220>
<223>  N-terminal leucine modified with Ar-CH2OC(=O)-


<220>
<221>  MOD_RES
<222>  (1)..(1)
<223>  Ar-CH2OC(=O)(Leu)

<400>  13

Xaa Leu Lys Lys 
1               


<210>  14
<211>  4
<212>  PRT
<213>  Artificial

<220>
<223>  N-terminal lysine modified with Ar-CH2OC(=O)-


<220>
<221>  MOD_RES
<222>  (1)..(1)
<223>  Ar-CH2OC(=O)(Lys)

<400>  14

Xaa Lys Leu Leu 
1               


<210>  15
<211>  5
<212>  PRT
<213>  Artificial

<220>
<223>  N-terminal phenylalanine modified with Ar-CH2OC(=O)-


<220>
<221>  MOD_RES
<222>  (1)..(1)
<223>  Ar-CH2OC(=O)(Phe)

<400>  15

Xaa Lys Phe Lys Phe 
1               5   


<210>  16
<211>  5
<212>  PRT
<213>  Artificial

<220>
<223>  N-terminal phenylalanine modified with Ar-CH2OC(=O)-


<220>
<221>  MOD_RES
<222>  (1)..(1)
<223>  Ar-CH2OC(=O)(Phe)

<400>  16

Xaa Phe Phe Lys Lys 
1               5   


<210>  17
<211>  5
<212>  PRT
<213>  Artificial

<220>
<223>  N-terminal lysine modified with Ar-CH2OC(=O)-


<220>
<221>  MOD_RES
<222>  (1)..(1)
<223>  Ar-CH2OC(=O)(Lys)

<400>  17

Xaa Lys Phe Phe Phe 
1               5   


<210>  18
<211>  5
<212>  PRT
<213>  Artificial

<220>
<223>  N-terminal lysine modified with Ar-CH2OC(=O)-


<220>
<221>  MOD_RES
<222>  (1)..(1)
<223>  Ar-CH2OC(=O)(Lys)

<400>  18

Xaa Phe Lys Phe Lys 
1               5   


<210>  19
<211>  5
<212>  PRT
<213>  Artificial

<220>
<223>  N-terminal phenylalanine modified with Ar-CH2OC(=O)-


<220>
<221>  MOD_RES
<222>  (1)..(1)
<223>  Ar-CH2OC(=O)(Phe)

<400>  19

Xaa Phe Lys Lys Lys 
1               5   


<210>  20
<211>  5
<212>  PRT
<213>  Artificial

<220>
<223>  N-terminal lysine modified with Ar-CH2OC(=O)-


<220>
<221>  MOD_RES
<222>  (1)..(1)
<223>  Ar-CH2OC(=O)(Lys)

<400>  20

Xaa Lys Lys Phe Phe 
1               5   


<210>  21
<211>  5
<212>  PRT
<213>  Artificial

<220>
<223>  N-terminal valine modified with Ar-CH2OC(=O)-


<220>
<221>  MOD_RES
<222>  (1)..(1)
<223>  Ar-CH2OC(=O)(Val)

<400>  21

Xaa Lys Val Lys Val 
1               5   


<210>  22
<211>  5
<212>  PRT
<213>  Artificial

<220>
<223>  N-terminal valine modified with Ar-CH2OC(=O)-


<220>
<221>  MOD_RES
<222>  (1)..(1)
<223>  Ar-CH2OC(=O)(Val)

<400>  22

Xaa Val Val Lys Lys 
1               5   


<210>  23
<211>  5
<212>  PRT
<213>  Artificial

<220>
<223>  N-terminal lysine modified with Ar-CH2OC(=O)-


<220>
<221>  MOD_RES
<222>  (1)..(1)
<223>  Ar-CH2OC(=O)(Lys)

<400>  23

Xaa Lys Lys Val Val 
1               5   


<210>  24
<211>  4
<212>  PRT
<213>  Artificial

<220>
<223>  N-terminal phenylalanine modified with Fmoc-


<220>
<221>  MOD_RES
<222>  (1)..(1)
<223>  FMoc(Phe)

<220>
<221>  MOD_RES
<222>  (1)..(1)
<223>  Fmoc(Phe)

<400>  24

Xaa Phe Lys Lys 
1               


<210>  25
<211>  4
<212>  PRT
<213>  Artificial

<220>
<223>  N-terminal phenylalanine modified with Fmoc-


<220>
<221>  MOD_RES
<222>  (1)..(1)
<223>  Fmoc(Phe)

<400>  25

Xaa Lys Phe Lys 
1               


<210>  26
<211>  4
<212>  PRT
<213>  Artificial

<220>
<223>  N-terminal phenylalanine modified with Cbz-


<220>
<221>  MOD_RES
<222>  (1)..(1)
<223>  Cbz(Phe)

<400>  26

Xaa Phe Lys Lys 
1               


<210>  27
<211>  4
<212>  PRT
<213>  Artificial

<220>
<223>  N-terminal phenylalanine modified with Cbz-


<220>
<221>  MOD_RES
<222>  (1)..(1)
<223>  Cbz(Phe)

<400>  27

Xaa Lys Phe Lys 
1               


<210>  28
<211>  4
<212>  PRT
<213>  Artificial

<220>
<223>  N-terminal valine modified with Fmoc-


<220>
<221>  MOD_RES
<222>  (1)..(1)
<223>  Fmoc(Val)

<400>  28

Xaa Val Lys Lys 
1               


<210>  29
<211>  4
<212>  PRT
<213>  Artificial

<220>
<223>  N-terminal valine modified with Fmoc-


<220>
<221>  MOD_RES
<222>  (1)..(1)
<223>  Fmoc(Val)

<400>  29

Xaa Lys Val Lys 
1               


<210>  30
<211>  5
<212>  PRT
<213>  Artificial

<220>
<223>  N-terminal lysine modified with Fmoc-


<220>
<221>  MOD_RES
<222>  (1)..(1)
<223>  FMoc(Lys)

<400>  30

Xaa Phe Lys Phe Lys 
1               5   


<210>  31
<211>  5
<212>  PRT
<213>  Artificial

<220>
<223>  N-terminal phenylalanine modified with Fmoc-


<220>
<221>  MOD_RES
<222>  (1)..(1)
<223>  Fmoc(Phe)

<400>  31

Xaa Phe Lys Lys Lys 
1               5   


<210>  32
<211>  4
<212>  PRT
<213>  Artificial

<220>
<223>  N-terminal valine modified with Cbz-


<220>
<221>  MOD_RES
<222>  (1)..(1)
<223>  Cbz(Val)

<400>  32

Xaa Val Lys Lys 
1               


<210>  33
<211>  4
<212>  PRT
<213>  Artificial

<220>
<223>  N-terminal valine modified with Cbz-


<220>
<221>  MOD_RES
<222>  (1)..(1)
<223>  Cbz(Val)

<400>  33

Xaa Lys Val Lys 
1               


<210>  34
<211>  4
<212>  PRT
<213>  Artificial

<220>
<223>  N-terminal phenylalanine modified with Ar-CH2OC(=O)-


<220>
<221>  MOD_RES
<222>  (1)..(1)
<223>  AR-CH2OC(=O)(Phe)

<220>
<221>  MOD_RES
<222>  (1)..(1)
<223>  Ar-CH2OC(=O)(Phe)

<400>  34

Xaa Phe Asp Asp 
1               


<210>  35
<211>  6
<212>  PRT
<213>  Artificial

<220>
<223>  N-terminal glycine modified with Ar-CH2OC(=O)-


<220>
<221>  MOD_RES
<222>  (1)..(1)
<223>  Ar-CH2OC(=O)(Gly)

<400>  35

Xaa Phe Phe Arg Gly Asp 
1               5       


