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CENPJ gene
Known as:
SCKL4
, BM032
, CENTROSOMAL P4.1-ASSOCIATED PROTEIN
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National Institutes of Health
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Papers overview
Semantic Scholar uses AI to extract papers important to this topic.
Highly Cited
2020
Highly Cited
2020
Author Correction: Sas-4 provides a scaffold for cytoplasmic complexes and tethers them in a centrosome
J. Gopalakrishnan
,
V. Mennella
,
+7 authors
T. Avidor-Reiss
Nature Communications
2020
Corpus ID: 39690360
An amendment to this paper has been published and can be accessed via a link at the top of the paper.
2016
2016
Modulation of the thermostability and substrate specificity of Candida rugosa lipase1 by altering the acyl-binding residue Gly414 at the α-helix-connecting bend.
Xiaofei Zhang
,
Yong Zhang
,
+5 authors
Yan Feng
Enzyme and Microbial Technology
2016
Corpus ID: 11010695
2011
2011
Isolation and characterization of novel lipases from a metagenomic library of the microbial community in the pitcher fluid of the carnivorous plant Nepenthes hybrida.
T. Morohoshi
,
M. Oikawa
,
Shoko Sato
,
N. Kikuchi
,
N. Kato
,
T. Ikeda
Journal of Bioscience and Bioengineering
2011
Corpus ID: 11424917
2005
2005
Multiple mutagenesis of the Candida rugosa LIP1 gene and optimum production of recombinant LIP1 expressed in Pichia pastoris
Shu-Wei Chang
,
Shu-Wei Chang
,
+5 authors
Jei-Fu Shaw
Applied Microbiology and Biotechnology
2005
Corpus ID: 19820569
Candida rugosa lipase, a significant catalyst, had been widely employed to catalyze various chemical reactions such as non…
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Review
2003
Review
2003
Centrosome size is controlled by centriolar SAS-4.
J. Salisbury
Trends in Cell Biology
2003
Corpus ID: 42107878
2001
2001
The cytokinin 2-isopentenyladenine causes partial reversion to skotomorphogenesis and induces formation of prolamellar bodies and protochlorophyllide657 in the lip1 mutant of pea.
M. Seyedi
,
E. Selstam
,
M. Timko
,
C. Sundqvist
Physiologia Plantarum : An International Journal…
2001
Corpus ID: 1831544
When grown in darkness the photomorphogenic lip1 mutant of pea (Pisum sativum L.) has a slender stem, expanded leaves…
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1999
1999
Analysis of the Gene Family Encoding Lipases in Candida rugosa by Competitive Reverse Transcription-PCR
Guan-Chiun Lee
,
Shye-Jye Tang
,
K. Sun
,
J. Shaw
Applied and Environmental Microbiology
1999
Corpus ID: 21200831
ABSTRACT Synthesis of multiple extracellular lipases in Candida rugosa has been demonstrated. However, it is difficult to…
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1999
1999
Expression of LIP1 and LIP2 genes from Geotrichum species in Baker's yeast strains and their application to the bread-making process.
A. Monfort
,
A. Blasco
,
P. Sanz
,
J. Prieto
Journal of Agricultural and Food Chemistry
1999
Corpus ID: 31360531
Lipolytic baker's yeast strains able to produce extracellular active lipase have been constructed by transformation with plasmids…
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1997
1997
The Dark-Adaptation Response of the De-Etiolated Pea Mutant lip1 Is Modulated by External Signals and Endogenous Programs
S. Frances
,
W. F. Thompson
Plant Physiology
1997
Corpus ID: 2494397
The lip1 mutant of pea (Pisum sativum L.) exhibits a de-etiolated phenotype. When grown in darkness, lip1 plants have several…
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1994
1994
Sequence of the Streptomyces albus G lipase-encoding gene reveals the presence of a prokaryotic lipase family.
H. Cruz
,
C. Pérez
,
E. Wellington
,
C. Castro
,
L. Servín-González
Gene
1994
Corpus ID: 11360309
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