glycowork

Glycans are fundamental biological sequences that are as crucial as DNA, RNA, and proteins. As complex carbohydrates forming branched structures, glycans are ubiquitous yet often overlooked in biological research.

Why Glycans are Important

Ubiquitous in biology
Integral to protein and lipid function
Relevant to human diseases

Challenges in Glycan Analysis

Analyzing glycans is complicated due to their non-linear structures and enormous diversity. But that’s where glycowork comes in.

Introducing glycowork: Your Solution for Glycan-Focused Data Science

Glycowork is a Python package specifically designed to simplify glycan sequence processing and analysis. It offers:

Functions for glycan analysis
Datasets for model training
Full support for IUPAC-condensed string representation. Broad support for IUPAC-extended, LinearCode, Oxford, GlycoCT, and WURCS.
Powerful graph-based architecture for in-depth analysis

Documentation: https://bojarlab.github.io/glycowork/

Contribute: Interested in contributing? Read our Contribution Guidelines

Citation: If glycowork adds value to your project, please cite Thomes et al., 2021

Install

Not familiar with Python? Try our no-code, graphical user interface (glycoworkGUI.exe, can be downloaded at the bottom of the latest Release page) for accessing some of the most useful glycowork functions!

via pip:
pip install glycowork
import glycowork

alternative:
pip install git+https://github.com/BojarLab/glycowork.git
import glycowork

Note that we have optional extra installs for specialized use (even further instructions can be found in the Examples tab), such as:
deep learning
pip install glycowork[ml]
drawing glycan images with GlycoDraw (see install instructions in the Examples tab)
pip install glycowork[draw]
analyzing atomic/chemical properties of glycans
pip install glycowork[chem]
everything
pip install glycowork[all]

Data & Models

Glycowork currently contains the following main datasets that are freely available to everyone:

df_glycan
- contains ~50,500 unique glycan sequences, including labels such as ~39,500 species associations, ~19,000 tissue associations, and ~2,500 disease associations
glycan_binding
- contains >580,000 protein-glycan binding interactions, from 1,465 unique glycan-binding proteins

Additionally, we store these trained deep learning models for easy usage, which can be retrieved with the prep_model function:

LectinOracle
- can be used to predict glycan-binding specificity of a protein, given its ESM-1b representation; from Lundstrom et al., 2021
LectinOracle_flex
- operates the same as LectinOracle but can directly use the raw protein sequence as input (no ESM-1b representation required)
SweetNet
- a graph convolutional neural network trained to predict species from glycan, can be used to generate learned glycan representations; from Burkholz et al., 2021
NSequonPred
- given the ESM-1b representation of an N-sequon (+/- 20 AA), this model can predict whether the sequon will be glycosylated

How to use

Glycowork currently contains four main modules:

glycan_data
- stores several glycan datasets and contains helper functions
ml
- here are all the functions for training and using machine learning models, including train-test-split, getting glycan representations, etc.
motif
- contains functions for processing & drawing glycan sequences, identifying motifs and features, and analyzing them
network
- contains functions for constructing and analyzing glycan networks (e.g., biosynthetic networks)

Below are some examples of what you can do with glycowork; be sure to check out the other examples in the full documentation for everything that’s there. –> Learn more A non-exhaustive list includes:

using trained AI models for prediction –> Learn more
training your own AI models –> Learn more
motif enrichment analyses –> Learn more
differential glycomics expression analysis –> Learn more
annotating motifs in glycans –> Learn more
drawing publication-quality glycan figures –> Learn more
finding out whether & where glycans are describing the same sequence –> Learn more
m/z to composition to structure to motif mappings –> Learn more
mass calculation –> Learn more
visualizing motif distribution / glycan similarities / sequence properties –> Learn more
constructing and analyzing biosynthetic networks –> Learn more

#drawing publication-quality glycan figures
from glycowork.motif.draw import GlycoDraw
GlycoDraw("Neu5Ac(a2-3)Gal(b1-4)[Fuc(a1-3)]GlcNAc(b1-2)Man(a1-3)[Neu5Gc(a2-6)Gal(b1-4)GlcNAc(b1-2)Man(a1-6)][GlcNAc(b1-4)]Man(b1-4)GlcNAc(b1-4)[Fuc(a1-6)]GlcNAc", highlight_motif = "Neu5Ac(a2-3)Gal(b1-4)[Fuc(a1-3)]GlcNAc")

#get motifs, graph features, and sequence features of a set of glycan sequences to train models or analyze glycan properties
glycans = ["Neu5Ac(a2-3)Gal(b1-4)[Fuc(a1-3)]GlcNAc(b1-2)Man(a1-3)[Gal(b1-3)[Fuc(a1-4)]GlcNAc(b1-2)Man(a1-6)]Man(b1-4)GlcNAc(b1-4)[Fuc(a1-6)]GlcNAc",
           "Ma3(Ma6)Mb4GNb4GN;N",
           "α-D-Manp-(1→3)[α-D-Manp-(1→6)]-β-D-Manp-(1→4)-β-D-GlcpNAc-(1→4)-β-D-GlcpNAc-(1→",
           "F(3)XA2",
           "WURCS=2.0/5,11,10/[a2122h-1b_1-5_2*NCC/3=O][a1122h-1b_1-5][a1122h-1a_1-5][a2112h-1b_1-5][a1221m-1a_1-5]/1-1-2-3-1-4-3-1-4-5-5/a4-b1_a6-k1_b4-c1_c3-d1_c6-g1_d2-e1_e4-f1_g2-h1_h4-i1_i2-j1",
           """RES
1b:b-dglc-HEX-1:5
2s:n-acetyl
3b:b-dglc-HEX-1:5
4s:n-acetyl
5b:b-dman-HEX-1:5
6b:a-dman-HEX-1:5
7b:b-dglc-HEX-1:5
8s:n-acetyl
9b:b-dgal-HEX-1:5
10s:sulfate
11s:n-acetyl
12b:a-dman-HEX-1:5
13b:b-dglc-HEX-1:5
14s:n-acetyl
15b:b-dgal-HEX-1:5
16s:n-acetyl
LIN
1:1d(2+1)2n
2:1o(4+1)3d
3:3d(2+1)4n
4:3o(4+1)5d
5:5o(3+1)6d
6:6o(2+1)7d
7:7d(2+1)8n
8:7o(4+1)9d
9:9o(-1+1)10n
10:9d(2+1)11n
11:5o(6+1)12d
12:12o(2+1)13d
13:13d(2+1)14n
14:13o(4+1)15d
15:15d(2+1)16n"""]
from glycowork.motif.annotate import annotate_dataset
out = annotate_dataset(glycans, feature_set = ['known', 'terminal', 'exhaustive'])

	Internal_LewisX	SialylLewisX	Terminal_LewisA	H_type2	Chitobiose	Trimannosylcore	Terminal_LacNAc_type1	Internal_LacNAc_type2	Terminal_LacNAc_type2	Terminal_LacdiNAc_type2	core_fucose	core_fucose(a1-3)	Nglycan_complex	Nglycan_complex2	M3FX	Fuc	Gal	GalNAc	GalNAcOS	GlcNAc	Man	Neu5Ac	Xyl	Fuc(a1-2)Gal	Fuc(a1-3)GlcNAc	Fuc(a1-4)GlcNAc	Fuc(a1-6)GlcNAc	Fuc(a1-?)GlcNAc	Gal(b1-3)GlcNAc	Gal(b1-4)GlcNAc	Gal(b1-?)GlcNAc	GalNAc(b1-4)GlcNAc	GalNAcOS(b1-4)GlcNAc	GlcNAc(b1-2)Man	GlcNAc(b1-4)GlcNAc	GlcNAc(b1-?)Man	Man(a1-3)Man	Man(a1-6)Man	Man(a1-?)Man	Man(b1-4)GlcNAc	Neu5Ac(a2-3)Gal	Xyl(b1-2)Man	Terminal_Neu5Ac(a2-3)	Terminal_Gal(b1-3)	Terminal_Fuc(a1-3)	Terminal_GalNAcOS(b1-4)	Terminal_Man(a1-3)	Terminal_Fuc(a1-4)	Terminal_Xyl(b1-2)	Terminal_GalNAc(b1-4)	Terminal_Fuc(a1-6)	Terminal_Gal(b1-4)	Terminal_Fuc(a1-2)	Terminal_Man(a1-6)	Terminal_Fuc(a1-?)	Terminal_Man(a1-?)	Terminal_GlcNAc(b1-?)	Terminal_Gal(b1-?)
Neu5Ac(a2-3)Gal(b1-4)[Fuc(a1-3)]GlcNAc(b1-2)Man(a1-3)[Gal(b1-3)[Fuc(a1-4)]GlcNAc(b1-2)Man(a1-6)]Man(b1-4)GlcNAc(b1-4)[Fuc(a1-6)]GlcNAc	1	1	1	0	1	1	1	1	0	0	1	0	1	0	0	3	2	0	0	4	3	1	0	0	1	1	1	3	1	1	2	0	0	2	1	2	1	1	2	1	1	0	1	1	1	0	0	1	0	0	1	0	0	0	3	0	0	1
Man(a1-3)[Man(a1-6)]Man(b1-4)GlcNAc(b1-4)GlcNAc	0	0	0	0	1	1	0	0	0	0	0	0	0	0	0	0	0	0	0	2	3	0	0	0	0	0	0	0	0	0	0	0	0	0	1	0	1	1	2	1	0	0	0	0	0	0	1	0	0	0	0	0	0	1	0	2	0	0
Man(a1-3)[Man(a1-6)]Man(b1-4)GlcNAc(b1-4)GlcNAc	0	0	0	0	1	1	0	0	0	0	0	0	0	0	0	0	0	0	0	2	3	0	0	0	0	0	0	0	0	0	0	0	0	0	1	0	1	1	2	1	0	0	0	0	0	0	1	0	0	0	0	0	0	1	0	2	0	0
GlcNAc(b1-?)Man(a1-3)[GlcNAc(b1-?)Man(a1-6)][Xyl(b1-2)]Man(b1-4)GlcNAc(b1-4)[Fuc(a1-3)]GlcNAc	0	0	0	0	1	1	0	0	0	0	0	1	1	1	1	1	0	0	0	4	3	0	1	0	1	0	0	1	0	0	0	0	0	0	1	2	1	1	2	1	0	1	0	0	1	0	0	0	1	0	0	0	0	0	1	0	2	0
Fuc(a1-2)Gal(b1-4)GlcNAc(b1-2)Man(a1-6)[Gal(b1-4)GlcNAc(b1-2)Man(a1-3)]Man(b1-4)GlcNAc(b1-4)[Fuc(a1-6)]GlcNAc	0	0	0	1	1	1	0	1	1	0	1	0	1	0	0	2	2	0	0	4	3	0	0	1	0	0	1	1	0	2	2	0	0	2	1	2	1	1	2	1	0	0	0	0	0	0	0	0	0	0	1	1	1	0	2	0	0	1
GalNAcOS(b1-4)GlcNAc(b1-2)Man(a1-3)[GalNAc(b1-4)GlcNAc(b1-2)Man(a1-6)]Man(b1-4)GlcNAc(b1-4)GlcNAc	0	0	0	0	1	1	0	0	0	1	0	0	1	0	0	0	0	1	1	4	3	0	0	0	0	0	0	0	0	0	0	1	1	2	1	2	1	1	2	1	0	0	0	0	0	1	0	0	0	1	0	0	0	0	0	0	0	0

#using graphs, you can easily check whether a glycan contains a specific motif; how about internal Lewis A/X motifs?
from glycowork.motif.graph import subgraph_isomorphism
print(subgraph_isomorphism('Neu5Ac(a2-3)Gal(b1-4)[Fuc(a1-3)]GlcNAc(b1-6)[Gal(b1-3)]GalNAc',
                     'Fuc(a1-?)[Gal(b1-?)]GlcNAc', termini_list = ['terminal', 'internal', 'flexible']))
print(subgraph_isomorphism('Neu5Ac(a2-3)Gal(b1-3)[Fuc(a1-4)]GlcNAc(b1-6)[Gal(b1-3)]GalNAc',
                     'Fuc(a1-?)[Gal(b1-?)]GlcNAc', termini_list = ['t', 'i', 'f']))
print(subgraph_isomorphism('Gal(b1-3)[Fuc(a1-4)]GlcNAc(b1-6)[Gal(b1-3)]GalNAc',
                     'Fuc(a1-?)[Gal(b1-?)]GlcNAc', termini_list = ['t', 'i', 'f']))

#or you could find the terminal epitopes of a glycan
from glycowork.motif.annotate import get_terminal_structures
print("\nTerminal structures:")
print(get_terminal_structures('Man(a1-3)[Man(a1-6)]Man(b1-4)GlcNAc(b1-4)[Fuc(a1-6)]GlcNAc'))

True
True
False

Terminal structures:
['Man(a1-3)', 'Man(a1-6)', 'Fuc(a1-6)']

#given a composition, find matching glycan structures in SugarBase; specific for glycan classes and taxonomy
from glycowork.motif.tokenization import compositions_to_structures
print(compositions_to_structures([{'Hex':3, 'HexNAc':4}], glycan_class = 'N'))

#or we could calculate the mass of this composition
from glycowork.motif.tokenization import composition_to_mass
print("\nMass of the composition Hex3HexNAc4")
print(composition_to_mass({'Hex':3, 'HexNAc':4}))
print(composition_to_mass("H3N4"))
print(composition_to_mass("Hex3HexNAc4"))

0 compositions could not be matched. Run with verbose = True to see which compositions.
                                               glycan  abundance
0   GlcNAc(b1-2)Man(a1-3)[GlcNAc(b1-2)Man(a1-6)]Ma...          0
1   GlcNAc(b1-2)Man(a1-3)[GlcNAc(b1-4)][Man(a1-6)]...          0
2   GlcNAc(b1-2)[GlcNAc(b1-4)]Man(a1-3)[Man(a1-6)]...          0
3   GalNAc(b1-4)GlcNAc(b1-2)Man(a1-3)[Man(a1-6)]Ma...          0
4   GlcNAc(b1-2)Man(a1-6)[Man(a1-3)][GlcNAc(b1-4)]...          0
5   Man(a1-3)[GlcNAc(b1-2)Man(a1-6)][GlcNAc(b1-4)]...          0
6   GlcNAc(?1-?)Man(a1-3)[GlcNAc(b1-?)Man(a1-6)]Ma...          0
7   GlcNAc(b1-2)Man(a1-3)[GlcNAc(b1-6)Man(a1-6)]Ma...          0
8   GlcNAc(b1-4)Man(a1-3)[GlcNAc(b1-6)Man(a1-6)]Ma...          0
9   GlcNAc(b1-2)Man(a1-3)[GlcNAc(b1-2)Man(a1-6)][G...          0
10  GlcNAc(b1-2)Man(a1-3)[GlcNAc(b1-2)[GlcNAc(b1-4...          0
11  GlcNAc(b1-2)[GlcNAc(b1-4)]Man(a1-3)[GlcNAc(b1-...          0
12  GlcNAc(b1-4)Man(a1-3)[GlcNAc(b1-2)Man(a1-6)]Ma...          0
13  Man(a1-3)[GlcNAc(b1-2)[GlcNAc(b1-6)]Man(a1-6)]...          0
14  GalNAc(b1-4)GlcNAc(b1-2)Man(a1-6)[Man(a1-3)]Ma...          0

Mass of the composition Hex3HexNAc4
1316.4865545999999
1316.4865545999999
1316.4865545999999

Name		Name	Last commit message	Last commit date
Latest commit History 821 Commits
.github/workflows		.github/workflows
bin		bin
glycowork		glycowork
index_files/figure-commonmark		index_files/figure-commonmark
tests		tests
.devcontainer.json		.devcontainer.json
.gitignore		.gitignore
00_core.ipynb		00_core.ipynb
01_glycan_data.ipynb		01_glycan_data.ipynb
02_ml.ipynb		02_ml.ipynb
03_motif.ipynb		03_motif.ipynb
04_network.ipynb		04_network.ipynb
05_examples.ipynb		05_examples.ipynb
CONTRIBUTING.md		CONTRIBUTING.md
LICENSE		LICENSE
MANIFEST.in		MANIFEST.in
README.md		README.md
_quarto.yml		_quarto.yml
docker-compose.yml		docker-compose.yml
glycowork_badge_wo_bg.jpg		glycowork_badge_wo_bg.jpg
index.ipynb		index.ipynb
nbdev.yml		nbdev.yml
settings.ini		settings.ini
setup.py		setup.py
sidebar.yml		sidebar.yml
styles.css		styles.css

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glycowork

Why Glycans are Important

Challenges in Glycan Analysis

Introducing glycowork: Your Solution for Glycan-Focused Data Science

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Data & Models

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Contributors 9

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glycowork

Why Glycans are Important

Challenges in Glycan Analysis

Introducing glycowork: Your Solution for Glycan-Focused Data Science

Install

Data & Models

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About

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