Showing
1 - 3
results of
3
for search '
Patil, K.R
'
Skip to content
Home
Collections
High Impact Articles
Jawi Collection
Malay Medicine
Forensic
Search Options
UiTM Open Access
Search by UiTM Scopus
Advanced Search
Search by Category
Discovery Service
Sources
UiTM Journals
List UiTM Journal in IR
Statistic
About
Open Access
Creative Commons Licenses
COKI | Malaysia Open Access
User Guide
Contact Us
Search Tips
FAQs
All Fields
Title
Author
Subject
Call Number
ISBN/ISSN
Tag
Find
Advanced
Author
Patil, K.R
Showing
1 - 3
results of
3
for search '
Patil, K.R
'
, query time: 0.06s
Refine Results
Sort
Relevance
Date Descending
Date Ascending
Call Number
Author
Title
1
Bioactivity assessment of natural compounds using machine learning models trained on target similarity between drugs
by
Andrejev, S.
,
Bassler, S.
,
Gabrielli, N.
,
Patil
,
K.R
,
Patil
,
K.R
,
Periwal, V.
,
Typas, A.
Published 2022
Call Number:
Loading...
Located:
Loading...
View Fulltext in Publisher
Article
2
CRISPRi screens reveal genes modulating yeast growth in lignocellulose hydrolysate
by
Gutmann, F.
,
Jann, C.
,
Johansson, A.
,
Patil
,
K.R
,
Pereira, F.
,
Steinmetz, L.M
Published 2021
Call Number:
Loading...
Located:
Loading...
View Fulltext in Publisher
Article
3
Metabolic memory underlying minimal residual disease in breast cancer
by
Alladin, A.
,
Brügger, B.
,
Gawrzak, S.
,
Jechlinger, M.
,
Kafkia, E.
,
Lüchtenborg, C.
,
Machado, D.
,
Patil
,
K.R
,
Radic Shechter, K.
,
Sévin, D.C
,
Zirngibl, K.
Published 2021
Call Number:
Loading...
Located:
Loading...
View Fulltext in Publisher
Article
Search Tools:
Get RSS Feed
—
Email this Search
Related Subjects
Animals
Article
Breast Neoplasms
CRISPR interference screen
DNA methylation
Eukaryota
Eukaryotic cells
Feedstocks
Female
Fine Chemicals
Gene function
Genes
Genetic elements
Growth-inhibitor compounds
Humans
Industrial fermentation
Lignin
Lignocellulose hydrolysate
Lignocellulose hydrolysates
Lignocellulosic biomass
Lignocellulosic material
Mice
Neoplasm Recurrence, Local
Neoplasm, Residual
Saccharomyces cerevisiae
Sustainable biotechnology
Toxic compounds
Yeast
Yeast fermentation
animal
Loading...
