HYDROGEN EXCHANGE IDENTIFIES PROTEIN INTERFACES AND SIGNALING-RELATED CHANGES IN FUNCTIONAL CHEMORECEPTOR ARRAYS Article Swipe

PDF

Xuni Li ·

YOU? · · 2021 · Open Access · · DOI: https://doi.org/10.7275/11501027.0

Weedy rice (Oryza spp.), a weedy relative of cultivated rice (O.sativa), infests and persists in cultivated rice fields worldwide. Many weedy rice populations have evolved similar adaptive traits, considered part of the ‘agricultural weed syndrome’, making this an ideal model to study the genetic basis of parallel evolution. Using population genetics analyses of South Asian and US weedy rice, my research reveals multiple independent evolution events giving rise to weed groups in the two geographic areas. Weeds in South Asia have highly heterogenous genetic backgrounds, with contributions from both cultivated varieties (aus and indica) and wild rice. Weeds in US evolved from independent single colonization events from South Asian cultivars (aus and indica). I phenotyped a more complete list of potential iconic weedy traits and assessed the polymorphisms on candidate genes underlying them. Among the traits I surveyed, seed shattering and red pericarps are the most essential weedy traits that converge among weedy rice worldwide with diverse ancestries. For the seed shattering candidate gene, sh4, almost all cultivar-like weeds inherited the non-shattering allele from cultivar ancestors, and thus there is another mechanism causing re-acquisition of shattering phenotype in cultivar-like weeds. However, genotypes of the the pericarp color candidate gene, Rc, is mostly sufficient to explain the red pericarp phenotype in weedy rice. I also performed physiological measurements and RNA-seq analysis to assess the competitiveness of weedy rice when compared to cultivar ancestors at vegetative growth stage, and to discover possible genetic mechanisms underlying competitiveness. Under low nitrogen environment, both US and South Asian weeds seem to allocate less or similar nitrogen to leaf area, while still have overall higher photosynthesis rate. Under optimal nitrogen environment, when compared to cultivars, US weedy rice grow faster and accumulate more sugar with less nitrogen accumulation in leaves. Certain sugar derivative pathway, plant growth and phytohormone related genes are detected to differentially express between weedy rice and their cultivar ancestors.

Related Topics

Computational Biology

Communication

Biochemistry

Concepts

Chemoreceptor Chemistry Cell biology Signal transduction Computer science Biology Computational biology Communication Biochemistry Psychology Receptor

Metadata

Type: article
Language: en
Landing Page: https://scholarworks.umass.edu/dissertations_2/1256
PDF: https://scholarworks.umass.edu/dissertations_2/1256
OA Status: green
Related Works: 1
OpenAlex ID: https://openalex.org/W2884024575

All OpenAlex metadata

Raw OpenAlex JSON

OpenAlex ID: https://openalex.org/W2884024575

Canonical identifier for this work in OpenAlex
DOI: https://doi.org/10.7275/11501027.0

Digital Object Identifier
Title: HYDROGEN EXCHANGE IDENTIFIES PROTEIN INTERFACES AND SIGNALING-RELATED CHANGES IN FUNCTIONAL CHEMORECEPTOR ARRAYS

Work title
Type: article

OpenAlex work type
Language: en

Primary language
Publication year: 2021

Year of publication
Publication date: 2021-04-01

Full publication date if available
Authors: Xuni Li

List of authors in order
Landing page: https://scholarworks.umass.edu/dissertations_2/1256

Publisher landing page
PDF URL: https://scholarworks.umass.edu/dissertations_2/1256

Direct link to full text PDF
Open access: Yes

Whether a free full text is available
OA status: green

Open access status per OpenAlex
OA URL: https://scholarworks.umass.edu/dissertations_2/1256

Direct OA link when available
Concepts: Chemoreceptor, Chemistry, Cell biology, Signal transduction, Computer science, Biology, Computational biology, Communication, Biochemistry, Psychology, Receptor

Top concepts (fields/topics) attached by OpenAlex
Cited by: 0

Total citation count in OpenAlex
Related works (count): 1

Other works algorithmically related by OpenAlex

Full payload

id	https://openalex.org/W2884024575
doi	https://doi.org/10.7275/11501027.0
ids.doi	https://doi.org/10.7275/11501027.0
ids.mag	2884024575
ids.openalex	https://openalex.org/W2884024575
fwci	0.0
type	article
title	HYDROGEN EXCHANGE IDENTIFIES PROTEIN INTERFACES AND SIGNALING-RELATED CHANGES IN FUNCTIONAL CHEMORECEPTOR ARRAYS
biblio.issue
biblio.volume
biblio.last_page
biblio.first_page
topics[0].id	https://openalex.org/T10683
topics[0].field.id	https://openalex.org/fields/16
topics[0].field.display_name	Chemistry
topics[0].score	0.05510000139474869
topics[0].domain.id	https://openalex.org/domains/3
topics[0].domain.display_name	Physical Sciences
topics[0].subfield.id	https://openalex.org/subfields/1607
topics[0].subfield.display_name	Spectroscopy
topics[0].display_name	Mass Spectrometry Techniques and Applications
is_xpac	False
apc_list
apc_paid
concepts[0].id	https://openalex.org/C103247709
concepts[0].level	3
concepts[0].score	0.6269178986549377
concepts[0].wikidata	https://www.wikidata.org/wiki/Q1069641
concepts[0].display_name	Chemoreceptor
concepts[1].id	https://openalex.org/C185592680
concepts[1].level	0
concepts[1].score	0.4447776675224304
concepts[1].wikidata	https://www.wikidata.org/wiki/Q2329
concepts[1].display_name	Chemistry
concepts[2].id	https://openalex.org/C95444343
concepts[2].level	1
concepts[2].score	0.4305219054222107
concepts[2].wikidata	https://www.wikidata.org/wiki/Q7141
concepts[2].display_name	Cell biology
concepts[3].id	https://openalex.org/C62478195
concepts[3].level	2
concepts[3].score	0.41761311888694763
concepts[3].wikidata	https://www.wikidata.org/wiki/Q828130
concepts[3].display_name	Signal transduction
concepts[4].id	https://openalex.org/C41008148
concepts[4].level	0
concepts[4].score	0.3907811641693115
concepts[4].wikidata	https://www.wikidata.org/wiki/Q21198
concepts[4].display_name	Computer science
concepts[5].id	https://openalex.org/C86803240
concepts[5].level	0
concepts[5].score	0.3713710308074951
concepts[5].wikidata	https://www.wikidata.org/wiki/Q420
concepts[5].display_name	Biology
concepts[6].id	https://openalex.org/C70721500
concepts[6].level	1
concepts[6].score	0.36262574791908264
concepts[6].wikidata	https://www.wikidata.org/wiki/Q177005
concepts[6].display_name	Computational biology
concepts[7].id	https://openalex.org/C46312422
concepts[7].level	1
concepts[7].score	0.32871395349502563
concepts[7].wikidata	https://www.wikidata.org/wiki/Q11024
concepts[7].display_name	Communication
concepts[8].id	https://openalex.org/C55493867
concepts[8].level	1
concepts[8].score	0.30636996030807495
concepts[8].wikidata	https://www.wikidata.org/wiki/Q7094
concepts[8].display_name	Biochemistry
concepts[9].id	https://openalex.org/C15744967
concepts[9].level	0
concepts[9].score	0.12553751468658447
concepts[9].wikidata	https://www.wikidata.org/wiki/Q9418
concepts[9].display_name	Psychology
concepts[10].id	https://openalex.org/C170493617
concepts[10].level	2
concepts[10].score	0.1176513135433197
concepts[10].wikidata	https://www.wikidata.org/wiki/Q208467
concepts[10].display_name	Receptor
keywords[0].id	https://openalex.org/keywords/chemoreceptor
keywords[0].score	0.6269178986549377
keywords[0].display_name	Chemoreceptor
keywords[1].id	https://openalex.org/keywords/chemistry
keywords[1].score	0.4447776675224304
keywords[1].display_name	Chemistry
keywords[2].id	https://openalex.org/keywords/cell-biology
keywords[2].score	0.4305219054222107
keywords[2].display_name	Cell biology
keywords[3].id	https://openalex.org/keywords/signal-transduction
keywords[3].score	0.41761311888694763
keywords[3].display_name	Signal transduction
keywords[4].id	https://openalex.org/keywords/computer-science
keywords[4].score	0.3907811641693115
keywords[4].display_name	Computer science
keywords[5].id	https://openalex.org/keywords/biology
keywords[5].score	0.3713710308074951
keywords[5].display_name	Biology
keywords[6].id	https://openalex.org/keywords/computational-biology
keywords[6].score	0.36262574791908264
keywords[6].display_name	Computational biology
keywords[7].id	https://openalex.org/keywords/communication
keywords[7].score	0.32871395349502563
keywords[7].display_name	Communication
keywords[8].id	https://openalex.org/keywords/biochemistry
keywords[8].score	0.30636996030807495
keywords[8].display_name	Biochemistry
keywords[9].id	https://openalex.org/keywords/psychology
keywords[9].score	0.12553751468658447
keywords[9].display_name	Psychology
keywords[10].id	https://openalex.org/keywords/receptor
keywords[10].score	0.1176513135433197
keywords[10].display_name	Receptor
language	en
locations[0].id	pmh:oai:scholarworks.umass.edu:dissertations_2-2257
locations[0].is_oa	True
locations[0].source.id	https://openalex.org/S4306402057
locations[0].source.issn
locations[0].source.type	repository
locations[0].source.is_oa	False
locations[0].source.issn_l
locations[0].source.is_core	False
locations[0].source.is_in_doaj	False
locations[0].source.display_name	Scholarworks (University of Massachusetts Amherst)
locations[0].source.host_organization	https://openalex.org/I24603500
locations[0].source.host_organization_name	University of Massachusetts Amherst
locations[0].source.host_organization_lineage	https://openalex.org/I24603500
locations[0].license
locations[0].pdf_url	https://scholarworks.umass.edu/dissertations_2/1256
locations[0].version	submittedVersion
locations[0].raw_type	text
locations[0].license_id
locations[0].is_accepted	False
locations[0].is_published	False
locations[0].raw_source_name	Doctoral Dissertations
locations[0].landing_page_url	https://scholarworks.umass.edu/dissertations_2/1256
locations[1].id	mag:2884024575
locations[1].is_oa	False
locations[1].source
locations[1].license
locations[1].pdf_url
locations[1].version
locations[1].raw_type
locations[1].license_id
locations[1].is_accepted	False
locations[1].is_published
locations[1].raw_source_name
locations[1].landing_page_url	https://scholarworks.umass.edu/cgi/viewcontent.cgi?article=2257&context=dissertations_2
locations[2].id	doi:10.7275/11501027.0
locations[2].is_oa	True
locations[2].source.id	https://openalex.org/S7407053130
locations[2].source.type	repository
locations[2].source.is_oa	False
locations[2].source.issn_l
locations[2].source.is_core	False
locations[2].source.is_in_doaj	False
locations[2].source.display_name	University of Massachusetts (UMass) Amherst
locations[2].source.host_organization
locations[2].source.host_organization_name
locations[2].license
locations[2].pdf_url
locations[2].version
locations[2].raw_type	thesis
locations[2].license_id
locations[2].is_accepted	False
locations[2].is_published
locations[2].raw_source_name
locations[2].landing_page_url	https://doi.org/10.7275/11501027.0
indexed_in	datacite
authorships[0].author.id	https://openalex.org/A5037403131
authorships[0].author.orcid	https://orcid.org/0000-0002-8099-4521
authorships[0].author.display_name	Xuni Li
authorships[0].author_position	first
authorships[0].raw_author_name	Xuni Li
authorships[0].is_corresponding	True
has_content.pdf	True
has_content.grobid_xml	True
is_paratext	False
open_access.is_oa	True
open_access.oa_url	https://scholarworks.umass.edu/dissertations_2/1256
open_access.oa_status	green
open_access.any_repository_has_fulltext	False
created_date	2025-10-10T00:00:00
display_name	HYDROGEN EXCHANGE IDENTIFIES PROTEIN INTERFACES AND SIGNALING-RELATED CHANGES IN FUNCTIONAL CHEMORECEPTOR ARRAYS
has_fulltext	False
is_retracted	False
updated_date	2025-11-06T06:51:31.235846
primary_topic.id	https://openalex.org/T10683
primary_topic.field.id	https://openalex.org/fields/16
primary_topic.field.display_name	Chemistry
primary_topic.score	0.05510000139474869
primary_topic.domain.id	https://openalex.org/domains/3
primary_topic.domain.display_name	Physical Sciences
primary_topic.subfield.id	https://openalex.org/subfields/1607
primary_topic.subfield.display_name	Spectroscopy
primary_topic.display_name	Mass Spectrometry Techniques and Applications
related_works	https://openalex.org/W2218971255
cited_by_count	0
locations_count	3
best_oa_location.id	pmh:oai:scholarworks.umass.edu:dissertations_2-2257
best_oa_location.is_oa	True
best_oa_location.source.id	https://openalex.org/S4306402057
best_oa_location.source.issn
best_oa_location.source.type	repository
best_oa_location.source.is_oa	False
best_oa_location.source.issn_l
best_oa_location.source.is_core	False
best_oa_location.source.is_in_doaj	False
best_oa_location.source.display_name	Scholarworks (University of Massachusetts Amherst)
best_oa_location.source.host_organization	https://openalex.org/I24603500
best_oa_location.source.host_organization_name	University of Massachusetts Amherst
best_oa_location.source.host_organization_lineage	https://openalex.org/I24603500
best_oa_location.license
best_oa_location.pdf_url	https://scholarworks.umass.edu/dissertations_2/1256
best_oa_location.version	submittedVersion
best_oa_location.raw_type	text
best_oa_location.license_id
best_oa_location.is_accepted	False
best_oa_location.is_published	False
best_oa_location.raw_source_name	Doctoral Dissertations
best_oa_location.landing_page_url	https://scholarworks.umass.edu/dissertations_2/1256
primary_location.id	pmh:oai:scholarworks.umass.edu:dissertations_2-2257
primary_location.is_oa	True
primary_location.source.id	https://openalex.org/S4306402057
primary_location.source.issn
primary_location.source.type	repository
primary_location.source.is_oa	False
primary_location.source.issn_l
primary_location.source.is_core	False
primary_location.source.is_in_doaj	False
primary_location.source.display_name	Scholarworks (University of Massachusetts Amherst)
primary_location.source.host_organization	https://openalex.org/I24603500
primary_location.source.host_organization_name	University of Massachusetts Amherst
primary_location.source.host_organization_lineage	https://openalex.org/I24603500
primary_location.license
primary_location.pdf_url	https://scholarworks.umass.edu/dissertations_2/1256
primary_location.version	submittedVersion
primary_location.raw_type	text
primary_location.license_id
primary_location.is_accepted	False
primary_location.is_published	False
primary_location.raw_source_name	Doctoral Dissertations
primary_location.landing_page_url	https://scholarworks.umass.edu/dissertations_2/1256
publication_date	2021-04-01
publication_year	2021
referenced_works_count	0
abstract_inverted_index.I	113, 136, 212
abstract_inverted_index.a	4, 115
abstract_inverted_index.US	56, 99, 249, 279
abstract_inverted_index.an	37
abstract_inverted_index.at	232
abstract_inverted_index.in	14, 71, 77, 98, 187, 209, 292
abstract_inverted_index.is	179, 200
abstract_inverted_index.my	59
abstract_inverted_index.of	7, 30, 45, 52, 119, 184, 192, 224
abstract_inverted_index.on	128
abstract_inverted_index.or	258
abstract_inverted_index.to	40, 68, 203, 220, 229, 237, 255, 261, 277, 306
abstract_inverted_index.For	158
abstract_inverted_index.all	166
abstract_inverted_index.and	12, 55, 92, 94, 111, 124, 140, 176, 217, 236, 250, 284, 300, 312
abstract_inverted_index.are	143, 304
abstract_inverted_index.low	245
abstract_inverted_index.red	141, 206
abstract_inverted_index.the	31, 42, 72, 126, 134, 144, 159, 170, 193, 194, 205, 222
abstract_inverted_index.two	73
abstract_inverted_index.Asia	79
abstract_inverted_index.Many	19
abstract_inverted_index.also	213
abstract_inverted_index.both	88, 248
abstract_inverted_index.from	87, 101, 106, 173
abstract_inverted_index.grow	282
abstract_inverted_index.have	23, 80, 266
abstract_inverted_index.leaf	262
abstract_inverted_index.less	257, 289
abstract_inverted_index.list	118
abstract_inverted_index.more	116, 286
abstract_inverted_index.most	145
abstract_inverted_index.part	29
abstract_inverted_index.rice	1, 9, 16, 21, 153, 226, 281, 311
abstract_inverted_index.rise	67
abstract_inverted_index.seed	138, 160
abstract_inverted_index.seem	254
abstract_inverted_index.that	149
abstract_inverted_index.this	36
abstract_inverted_index.thus	177
abstract_inverted_index.weed	33, 69
abstract_inverted_index.when	227, 275
abstract_inverted_index.wild	95
abstract_inverted_index.with	85, 155, 288
abstract_inverted_index.Among	133
abstract_inverted_index.Asian	54, 108, 252
abstract_inverted_index.South	53, 78, 107, 251
abstract_inverted_index.Under	244, 271
abstract_inverted_index.Using	48
abstract_inverted_index.Weeds	76, 97
abstract_inverted_index.Weedy	0
abstract_inverted_index.among	151
abstract_inverted_index.area,	263
abstract_inverted_index.basis	44
abstract_inverted_index.color	196
abstract_inverted_index.gene,	163, 198
abstract_inverted_index.genes	130, 303
abstract_inverted_index.ideal	38
abstract_inverted_index.model	39
abstract_inverted_index.plant	298
abstract_inverted_index.rate.	270
abstract_inverted_index.rice,	58
abstract_inverted_index.rice.	96, 211
abstract_inverted_index.still	265
abstract_inverted_index.study	41
abstract_inverted_index.sugar	287, 295
abstract_inverted_index.their	313
abstract_inverted_index.them.	132
abstract_inverted_index.there	178
abstract_inverted_index.weeds	168, 253
abstract_inverted_index.weedy	5, 20, 57, 122, 147, 152, 210, 225, 280, 310
abstract_inverted_index.while	264
abstract_inverted_index.allele	172
abstract_inverted_index.almost	165
abstract_inverted_index.areas.	75
abstract_inverted_index.assess	221
abstract_inverted_index.events	65, 105
abstract_inverted_index.faster	283
abstract_inverted_index.fields	17
abstract_inverted_index.giving	66
abstract_inverted_index.groups	70
abstract_inverted_index.growth	234, 299
abstract_inverted_index.higher	268
abstract_inverted_index.highly	81
abstract_inverted_index.iconic	121
abstract_inverted_index.making	35
abstract_inverted_index.mostly	201
abstract_inverted_index.single	103
abstract_inverted_index.stage,	235
abstract_inverted_index.traits	123, 135, 148
abstract_inverted_index.weeds.	189
abstract_inverted_index.Certain	294
abstract_inverted_index.RNA-seq	218
abstract_inverted_index.another	180
abstract_inverted_index.between	309
abstract_inverted_index.causing	182
abstract_inverted_index.diverse	156
abstract_inverted_index.evolved	24, 100
abstract_inverted_index.explain	204
abstract_inverted_index.express	308
abstract_inverted_index.genetic	43, 83, 240
abstract_inverted_index.infests	11
abstract_inverted_index.leaves.	293
abstract_inverted_index.optimal	272
abstract_inverted_index.overall	267
abstract_inverted_index.related	302
abstract_inverted_index.reveals	61
abstract_inverted_index.similar	25, 259
abstract_inverted_index.traits,	27
abstract_inverted_index.However,	190
abstract_inverted_index.adaptive	26
abstract_inverted_index.allocate	256
abstract_inverted_index.analyses	51
abstract_inverted_index.analysis	219
abstract_inverted_index.assessed	125
abstract_inverted_index.compared	228, 276
abstract_inverted_index.complete	117
abstract_inverted_index.converge	150
abstract_inverted_index.cultivar	174, 230, 314
abstract_inverted_index.detected	305
abstract_inverted_index.discover	238
abstract_inverted_index.genetics	50
abstract_inverted_index.multiple	62
abstract_inverted_index.nitrogen	246, 260, 273, 290
abstract_inverted_index.parallel	46
abstract_inverted_index.pathway,	297
abstract_inverted_index.pericarp	195, 207
abstract_inverted_index.persists	13
abstract_inverted_index.possible	239
abstract_inverted_index.relative	6
abstract_inverted_index.research	60
abstract_inverted_index.ancestors	231
abstract_inverted_index.candidate	129, 162, 197
abstract_inverted_index.cultivars	109
abstract_inverted_index.essential	146
abstract_inverted_index.evolution	64
abstract_inverted_index.genotypes	191
abstract_inverted_index.inherited	169
abstract_inverted_index.mechanism	181
abstract_inverted_index.performed	214
abstract_inverted_index.pericarps	142
abstract_inverted_index.phenotype	186, 208
abstract_inverted_index.potential	120
abstract_inverted_index.surveyed,	137
abstract_inverted_index.varieties	90
abstract_inverted_index.worldwide	154
abstract_inverted_index.(<em>Oryza	2
abstract_inverted_index.accumulate	285
abstract_inverted_index.ancestors,	175
abstract_inverted_index.ancestors.	315
abstract_inverted_index.considered	28
abstract_inverted_index.cultivars,	278
abstract_inverted_index.cultivated	8, 15, 89
abstract_inverted_index.derivative	296
abstract_inverted_index.evolution.	47
abstract_inverted_index.geographic	74
abstract_inverted_index.mechanisms	241
abstract_inverted_index.phenotyped	114
abstract_inverted_index.population	49
abstract_inverted_index.shattering	139, 161, 185
abstract_inverted_index.sufficient	202
abstract_inverted_index.underlying	131, 242
abstract_inverted_index.vegetative	233
abstract_inverted_index.worldwide.	18
abstract_inverted_index.ancestries.	157
abstract_inverted_index.independent	63, 102
abstract_inverted_index.populations	22
abstract_inverted_index.spp.</em>),	3
abstract_inverted_index.<em>Rc</em>,	199
abstract_inverted_index.accumulation	291
abstract_inverted_index.backgrounds,	84
abstract_inverted_index.colonization	104
abstract_inverted_index.environment,	247, 274
abstract_inverted_index.heterogenous	82
abstract_inverted_index.measurements	216
abstract_inverted_index.phytohormone	301
abstract_inverted_index.syndrome’,	34
abstract_inverted_index.(<em>aus</em>	91, 110
abstract_inverted_index.<em>sh4</em>,	164
abstract_inverted_index.contributions	86
abstract_inverted_index.cultivar-like	167, 188
abstract_inverted_index.physiological	215
abstract_inverted_index.polymorphisms	127
abstract_inverted_index.differentially	307
abstract_inverted_index.non-shattering	171
abstract_inverted_index.photosynthesis	269
abstract_inverted_index.re-acquisition	183
abstract_inverted_index.competitiveness	223
abstract_inverted_index.‘agricultural	32
abstract_inverted_index.<em>indica</em>)	93
abstract_inverted_index.competitiveness.	243
abstract_inverted_index.<em>indica</em>).	112
abstract_inverted_index.(<em>O.sativa</em>),	10
cited_by_percentile_year
corresponding_author_ids	https://openalex.org/A5037403131
countries_distinct_count	0
institutions_distinct_count	1
citation_normalized_percentile.value	0.00173794
citation_normalized_percentile.is_in_top_1_percent	False
citation_normalized_percentile.is_in_top_10_percent	False