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Solid-phase protein PEGylation: Achieving mono-PEGylation through molecular tethering

2009 doctoral thesis by Vinod Babu Damodaran at University of Canterbury
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Solid-phase protein PEGylation: Achieving mono-PEGylation through molecular tethering

Summary

Solid-phase protein PEGylation: Achieving mono-PEGylation through molecular tethering is a doctoral thesis[1].

Key Facts

  • Solid-phase protein PEGylation: Achieving mono-PEGylation through molecular tethering authored Achieving mono-PEGylation through molecular tethering — author (P50): Vinod Babu Damodaran[2].
  • Solid-phase protein PEGylation: Achieving mono-PEGylation through molecular tethering's instance of is recorded as Achieving mono-PEGylation through molecular tethering — instance of (P31): doctoral thesis[3].
  • Solid-phase protein PEGylation: Achieving mono-PEGylation through molecular tethering's publisher is recorded as Achieving mono-PEGylation through molecular tethering — publisher (P123): UC Research Repository[4].
  • Solid-phase protein PEGylation: Achieving mono-PEGylation through molecular tethering's DOI is recorded as 10.26021/3305[5].
  • Solid-phase protein PEGylation: Achieving mono-PEGylation through molecular tethering's language of work or name is recorded as Achieving mono-PEGylation through molecular tethering — language of work or name (P407): English[6].
  • Solid-phase protein PEGylation: Achieving mono-PEGylation through molecular tethering's country of origin is recorded as Achieving mono-PEGylation through molecular tethering — country of origin (P495): New Zealand[7].
  • Solid-phase protein PEGylation: Achieving mono-PEGylation through molecular tethering's publication date is recorded as +2009-00-00T00:00:00Z[8].
  • Solid-phase protein PEGylation: Achieving mono-PEGylation through molecular tethering's main subject is recorded as Achieving mono-PEGylation through molecular tethering — main subject (P921): polyethylene glycol[9].
  • Solid-phase protein PEGylation: Achieving mono-PEGylation through molecular tethering's main subject is recorded as Achieving mono-PEGylation through molecular tethering — main subject (P921): PEGylation[10].
  • Solid-phase protein PEGylation: Achieving mono-PEGylation through molecular tethering's work available at URL is recorded as https://ir.canterbury.ac.nz/handle/10092/3757[11].
  • Solid-phase protein PEGylation: Achieving mono-PEGylation through molecular tethering's Handle ID is recorded as 10092/3757[12].
  • Solid-phase protein PEGylation: Achieving mono-PEGylation through molecular tethering's title is recorded as Solid-phase protein PEGylation: Achieving mono-PEGylation through molecular tethering[13].
  • Solid-phase protein PEGylation: Achieving mono-PEGylation through molecular tethering's copyright holder is recorded as Achieving mono-PEGylation through molecular tethering — copyright holder (P3931): Vinod Babu Damodaran[14].
  • Solid-phase protein PEGylation: Achieving mono-PEGylation through molecular tethering's thesis submitted to is recorded as Achieving mono-PEGylation through molecular tethering — thesis submitted to (P4101): University of Canterbury[15].
  • Solid-phase protein PEGylation: Achieving mono-PEGylation through molecular tethering's on focus list of Wikimedia project is recorded as Achieving mono-PEGylation through molecular tethering — on focus list of Wikimedia project (P5008): NZThesisProject[16].
  • Solid-phase protein PEGylation: Achieving mono-PEGylation through molecular tethering's copyright status is recorded as Achieving mono-PEGylation through molecular tethering — copyright status (P6216): copyrighted[17].
  • Solid-phase protein PEGylation: Achieving mono-PEGylation through molecular tethering's online access status is recorded as Achieving mono-PEGylation through molecular tethering — online access status (P6954): open access[18].
  • Solid-phase protein PEGylation: Achieving mono-PEGylation through molecular tethering's thesis committee member is recorded as Achieving mono-PEGylation through molecular tethering — thesis committee member (P9161): Conan J Fee[19].

Body

Designation and Status

Solid-phase protein PEGylation: Achieving mono-PEGylation through molecular tethering's instance of is recorded as Achieving mono-PEGylation through molecular tethering — instance of (P31): doctoral thesis[3].

References

Programmatic citations — every numbered marker resolves to a verifiable graph row below.

Direct Wikidata claims

  1. [3] . wikidata.org.
  2. [2] . hdl.handle.net. hdl.handle.net. Provenance: wikidata.org.
  3. [4] . wikidata.org.
  4. [5] . wikidata.org.
  5. [6] . wikidata.org.
  6. [7] . wikidata.org.
  7. [8] . wikidata.org.
  8. [9] . hdl.handle.net. hdl.handle.net. Provenance: wikidata.org.
  9. [10] . hdl.handle.net. hdl.handle.net. Provenance: wikidata.org.
  10. [11] . wikidata.org.
  11. [12] . wikidata.org.
  12. [13] . wikidata.org.
  13. [14] . wikidata.org.
  14. [15] . wikidata.org.
  15. [16] . wikidata.org.
  16. [17] . wikidata.org.
  17. [18] . wikidata.org.
  18. [19] . wikidata.org.

Class ancestry

  1. [1] . Wikidata. wikidata.org.

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Use these citations when quoting this entity in research, articles, AI prompts, or wherever provenance matters. We aggregate Wikidata + Wikipedia + authoritative open-data sources; the stitched, scored, cross-referenced view is what 4ort.xyz contributes.

APA 4ort.xyz Knowledge Graph. (2026). Solid-phase protein PEGylation: Achieving mono-PEGylation through molecular tethering. Retrieved May 3, 2026, from https://4ort.xyz/entity/solid-phase-protein-pegylation-achieving-mono-pegylation-through-molecular-tethering
MLA “Solid-phase protein PEGylation: Achieving mono-PEGylation through molecular tethering.” 4ort.xyz Knowledge Graph, 4ort.xyz, 3 May. 2026, https://4ort.xyz/entity/solid-phase-protein-pegylation-achieving-mono-pegylation-through-molecular-tethering.
BibTeX @misc{4ortxyz_solid-phase-protein-pegylation-achieving-mono-pegylation-through-molecular-tethering_2026, author = {{4ort.xyz Knowledge Graph}}, title = {{Solid-phase protein PEGylation: Achieving mono-PEGylation through molecular tethering}}, year = {2026}, url = {https://4ort.xyz/entity/solid-phase-protein-pegylation-achieving-mono-pegylation-through-molecular-tethering}, note = {Accessed: 2026-05-03}}
LLM prompt According to 4ort.xyz Knowledge Graph (aggregator of Wikidata, Wikipedia, and authoritative open-data sources): Solid-phase protein PEGylation: Achieving mono-PEGylation through molecular tethering — https://4ort.xyz/entity/solid-phase-protein-pegylation-achieving-mono-pegylation-through-molecular-tethering (retrieved 2026-05-03)

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