NEWS

Heterofunctional Polyethylene Glycols

Available with MW_PEG = 3000 Da, 5000 Da, 10000 Da.

HO-CH₂-CH₂-PEG-CH₂-CH₂-X

HO-PEG-NH₂

HO-PEG-NH-Boc

HO-PEG-NHCO-C₂H₄-SH

HO-PEG-NHCO-C₂H₄-S-Trt

HO-PEG-NHCO-C₂H₄-COOH

HO-PEG-NHCO-C₂H₄-CONH-NH-Boc

H₂N-CH₂-CH₂-PEG-CH₂-CH₂-X

H₂N-PEG-NH-Boc

H₂N-PEG-O-C₃H₆-COOH  x  HCl

H₂N-PEG-NHCO-C₂H₄-S-Trt

R-S-CH₂-CH₂-PEG-CH₂-CH₂-X

HS-PEG-NH₂   x   HCl

HS-C₂H₄-CONH-PEG-O-C₃H₆-COOH

HS-PEG-NHCO-C₂H₄-CONH-NH-Boc

Trt-S-C₂H₄-CONH-PEG-O-C₃H₆-CONHS

Boc-NH-CH₂-CH₂-PEG-CH₂-CH₂-X

Boc-NH-PEG-O-C₃H₆-COOH

Boc-NH-PEG-O-C₃H₆-CONHS

Boc-NH-PEG-SH

Fmoc-NH-CH₂-CH₂-PEG-CH₂-CH₂-X

Fmoc-NH-PEG-O-C₃H₆-COOH

Fmoc-NH-PEG-O-C₃H₆-CONHS

Biotin-CONH-CH₂-CH₂-PEG-CH₂-CH₂-X

Biotin-CONH-PEG-NH₂

Biotin-CONH-PEG-O-C₃H₆-COOH

Biotin-CONH-PEG-O-C₃H₆-CONHS

Maleinimido-hexanoic-NH-CH₂-CH₂-PEG-CH₂-CH₂-X

Malhex-NH-PEG-NHCO-Biotin

Malhex-NH-PEG-O-C₃H₆-COOH

Malhex-NH-PEG-O-C₃H₆-CONHS

Maleinimido Polyethylene Glycols

New Resins

Trifunctional Hybrid Resins for Sequential Cleavage of Peptides

Trifunctional Hybrid Resins for Sequential Cleavage of Peptide Amides

TOPPA - A Novel Resin for the Synthesis of Protected Peptide Amides

A Novel Resin for the Synthesis of Thioesters

Lower prices on highloaded TentaGel HL resins

Polystyrene Derivatives

Polystyrene Triphenylphosphine Resins

Formyl Polystyrene, cap. 0.6 - 0.9 mmol/g

200-400 mesh H 1 400 07

100-200 mesh H 1 100 07

125-160 µm H 125160 07

160-200 µm H 160200 07

250-315 µm H 250315 07

400-450 µm H 400450 07

500-560 µm H 500560 07

Carboxy Polystyrene, cap. 1.0 - 1.8 mmol/g

200-400 mesh H 1 400 08

100-200 mesh H 1 100 08

125-160 µm H 125160 08

160-200 µm H 160200 08

250-315 µm H 250315 08

400-450 µm H 400450 08

500-560 µm H 500560 08

Hydroxymethyl Polystyrene

Bromo Polystyrene

200-400 mesh H 1 400 09

100-200 mesh H 1 100 09

125-160 µm H 125160 09

160-200 µm H 160200 09

250-315 µm H 250315 09

400-450 µm H 400450 09

500-560 µm H 500560 09

Linker Resins

REM Resins

1.  Brown, A.R.; Rees, D.C.; Rankovic, Z.; Morphy, J.R., J. Am. Chem. Soc. 1997, 119, 3288
2.  Cattney, J., et al., Bioorg. Med. Chem. Lett. 1999, 9, 1323

  TentaGel REM
  HypoGel REM
  Polystyrene REM

Bromo Acetal Resins

1.  Patek, M., Lecture at Combinatorial Chemistry 2000, London, July 11-14, 2000
2.  Vojkovsky, T., et al., J. Org. Chem. 1998, 63, 3162-3163

  TentaGel Bromo Acetal
  HypoGel Bromo Acetal

Diol Resins

1.  Leznoff, C.C.; Wong, J.Y., Can. J. Chem. 1973, 51, 3756
2.  Chamoin, S., et al., Tetrahedron Lett. 1998, 39, 4179
3.  Maltais, R., et al., Tetrahedron Lett. 2000, 41, 1691

  TentaGel Diol
  HypoGel Diol

Spot Synthesis Membranes

Place your compound where you want to test it!

Genuine supports for parallel synthesis and high throughput assays

         In situ chemical synthesis of immobilized
         or cleavable compounds.

         Immobilization onto aminoethyl-,
         thiol-, biotin-reactive surfaces.

Support Materials
Membranes, films, slides made of
- Cellulose
- Polypropylene (Acrylamide grafted)
- PTFE (PS grafted)

Functionalization
- From 0.1 to 10 µmol/cm²
- With or without PEG-spacers
- H₂N-, HOOC-, HS-, Streptavidin, etc.
- Building Blocks: Fmoc/Boc amino acids
- Nucleosides (on linkers)

Index

Rapp Polymere GmbH
Ernst-Simon-Str. 9
D 72072 Tübingen
Germany

Phone: xx49 7071 763157
Fax: xx49 7071 763158
E-mail: support@rapp-polymere.com

200-400 mesh	H 1 400 07
100-200 mesh	H 1 100 07
125-160 µm	H 125160 07
160-200 µm	H 160200 07
250-315 µm	H 250315 07
400-450 µm	H 400450 07
500-560 µm	H 500560 07

200-400 mesh	H 1 400 08
100-200 mesh	H 1 100 08
125-160 µm	H 125160 08
160-200 µm	H 160200 08
250-315 µm	H 250315 08
400-450 µm	H 400450 08
500-560 µm	H 500560 08

200-400 mesh	H 1 400 09
100-200 mesh	H 1 100 09
125-160 µm	H 125160 09
160-200 µm	H 160200 09
250-315 µm	H 250315 09
400-450 µm	H 400450 09
500-560 µm	H 500560 09

	1. Brown, A.R.; Rees, D.C.; Rankovic, Z.; Morphy, J.R., J. Am. Chem. Soc. 1997, 119, 3288 2. Cattney, J., et al., Bioorg. Med. Chem. Lett. 1999, 9, 1323
TentaGel REM HypoGel REM Polystyrene REM

	1. Patek, M., Lecture at Combinatorial Chemistry 2000, London, July 11-14, 2000 2. Vojkovsky, T., et al., J. Org. Chem. 1998, 63, 3162-3163
TentaGel Bromo Acetal HypoGel Bromo Acetal

	1. Leznoff, C.C.; Wong, J.Y., Can. J. Chem. 1973, 51, 3756 2. Chamoin, S., et al., Tetrahedron Lett. 1998, 39, 4179 3. Maltais, R., et al., Tetrahedron Lett. 2000, 41, 1691
TentaGel Diol HypoGel Diol

In situ chemical synthesis of immobilized or cleavable compounds. Immobilization onto aminoethyl-, thiol-, biotin-reactive surfaces.
	Support Materials Membranes, films, slides made of - Cellulose - Polypropylene (Acrylamide grafted) - PTFE (PS grafted) Functionalization - From 0.1 to 10 µmol/cm² - With or without PEG-spacers - H₂N-, HOOC-, HS-, Streptavidin, etc. - Building Blocks: Fmoc/Boc amino acids - Nucleosides (on linkers)

NEWS

HO-CH2-CH2-PEG-CH2-CH2-X

H2N-CH2-CH2-PEG-CH2-CH2-X

R-S-CH2-CH2-PEG-CH2-CH2-X

Boc-NH-CH2-CH2-PEG-CH2-CH2-X

Fmoc-NH-CH2-CH2-PEG-CH2-CH2-X

Biotin-CONH-CH2-CH2-PEG-CH2-CH2-X

Maleinimido-hexanoic-NH-CH2-CH2-PEG-CH2-CH2-X

Rapp Polymere GmbH Ernst-Simon-Str. 9 D 72072 Tübingen Germany

Phone: xx49 7071 763157 Fax: xx49 7071 763158 E-mail: support@rapp-polymere.com

HO-CH₂-CH₂-PEG-CH₂-CH₂-X

H₂N-CH₂-CH₂-PEG-CH₂-CH₂-X

R-S-CH₂-CH₂-PEG-CH₂-CH₂-X

Boc-NH-CH₂-CH₂-PEG-CH₂-CH₂-X

Fmoc-NH-CH₂-CH₂-PEG-CH₂-CH₂-X

Biotin-CONH-CH₂-CH₂-PEG-CH₂-CH₂-X

Maleinimido-hexanoic-NH-CH₂-CH₂-PEG-CH₂-CH₂-X

Rapp Polymere GmbH
Ernst-Simon-Str. 9
D 72072 Tübingen
Germany

Phone: xx49 7071 763157
Fax: xx49 7071 763158
E-mail: support@rapp-polymere.com